245th ECS Meeting, San Francisco, CA-Call for Papers by The Electrochemical Society

CALL FOR PAPERS

245th ECS Meeting SAN FRANCISCO, CA

May 26-30, 2024 Marriott Marquis San Francisco

www.electrochem.org/245

GENERAL INFORMATION

The 245th ECS Meeting takes place in San Francisco, CA, May 26-30, 2024, at the Marriott Marquis San Francisco. This international conference brings together scientists, engineers, and researchers from academia, industry, and government laboratories to share results and discuss issues on related topics through a variety of formats such as oral presentations, poster sessions, panel discussions, tutorial sessions, short courses, professional development workshops, and exhibits. The unique blend of electrochemical and solid state science and technology at an ECS meeting provides an opportunity and forum to learn and exchange information on the latest scientific and technical developments in a variety of interdisciplinary areas.

ABSTRACT SUBMISSION

To give an oral or poster presentation at the 245th ECS Meeting, submit an original abstract for consideration via the ECS website no later than December 1, 2023. Faxed, emailed, and/or late abstracts are not accepted. Meeting abstracts should explicitly state the work’s objectives, new results, and conclusions or significance. After the submission deadline, symposium organizers evaluate all abstracts for content and relevance to the symposium topic, and schedule accepted submissions as either oral or poster presentations. Letters of Acceptance/Invitation are sent via email in February 2024, notifying corresponding authors of accepted abstracts, and the date, time, and location of their presentations. How and when a poster or oral presentation is scheduled is at the symposium organizers’ discretion, regardless of presenters’ requests.

PAPER PRESENTATION

Oral presentations must be in English. LCD projectors and laptops are provided for all oral presentations. Presenting authors MUST bring their presentations on USB flash drives to use with dedicated laptops located in each technical session room. Speakers requiring additional equipment must make written request to meetings@electrochem.org at least one month prior to the meeting so appropriate arrangements can be made, subject to availability, and at the author’s expense. Poster presentations must be displayed in English on a board approximately 3 feet 10 inches high by 3 feet 10 inches wide (1.17 meters high by 1.17 meters wide), labeled with the abstract number and day of presentation in the final program. Participants in the Z01 General Student Poster Competition are required to upload a digital poster file in advance of the meeting and be present during the in-person judging session on Tuesday evening. The deadline to upload a digital file for the competition is sent to corresponding authors. The prize categories are 1st Place ($1,500 cash award), 2nd Place ($1,000 cash award), and 3rd Place ($500 cash award). Digital presenters are required to submit a video of their presentation and/or a copy of the slide deck or poster that will only be made available for on-demand viewing within the online program through June 25, 2024. Digital presentations are NOT streamed into or out of the onsite session rooms.

MEETING PUBLICATIONS

ECS Meeting Abstracts—All meeting abstracts are published in the ECS Digital Library, copyrighted by ECS, and become ECS’s property upon presentation. ECS Journals—Authors presenting papers at ECS meetings are encouraged to submit to the Society’s technical journals: Journal of The Electrochemical Society, ECS Journal of Solid State Science and Technology, ECS Advances, or ECS Sensors Plus. Although there is no hard deadline for submitting these papers, six months from the symposium date is considered sufficient time to revise a paper to meet stricter journal criteria. Author instructions are on the ECS website. ECS Transactions—Select symposia publish their proceedings in ECS Transactions (ECST). Please check the individual symposia Calls for Papers in this document. Authors presenting in these symposia are welcome to submit to ECST full-text manuscripts based on their presentations. Issues of ECST are available for sale on a pre-order basis, as well as through the ECS Digital Library and ECS Online Store. Review each individual symposium’s listing in this Call for Papers to determine if your symposium is publishing an ECST issue. Visit the ECST website for additional information, including overall guidelines, author and editor instructions, a downloadable manuscript template, and more.

SHORT COURSES

ECS Short Courses provide students and seasoned professionals with indepth education on a wide range of topics. Novices and experts advance their technical expertise and knowledge through personalized instruction by academic and industry experts. Short Courses require advance registration and may be canceled if course enrollment is under 10 registrants. Learn more at https://www. electrochem.org/short-courses.

TECHNICAL EXHIBIT

The 245th ECS Meeting is the right place to exhibit. ECS provides a powerful platform for meeting major new customers while enhancing relationships with current customers from around the world. Traffic in the exhibit hall is generated by coffee and networking breaks along with evening poster sessions. Your presence at ECS’s leading industry event positions your brand as serious and reliable—and it’s a great way to build buzz for new products! Exhibit opportunities can be combined with sponsorship to suit your marketing needs. Contact sponsorship@electrochem.org for further details.

MEETING REGISTRATION

All participants—including authors and invited speakers—are required to pay the appropriate registration fees. Meeting registration information is posted on the ECS website as it becomes available. The deadline for discounted early registration is May 6, 2024.

HOTEL RESERVATIONS

The 245th ECS Meeting takes place at the Marriott Marquis San Francisco. Please refer to the meeting website for the most up-to-date information on hotel availability and blocks of rooms where meeting participants receive special rates. The hotel block is open until May 6, 2024, or it sells out.

LETTER OF INVITATION

Letters of Invitation are sent in February 2024 via email to the presenting authors of all accepted abstracts, notifying them of the date, time, and location of their presentations. Anyone requiring an official Letter of Invitation should email abstracts@electrochem.org. These letters do not imply any financial responsibility on the part of ECS.

BIANNUAL MEETING TRAVEL GRANTS

ECS divisions and sections may offer travel grants to assist students, postdoctoral researchers, and young professionals to attend ECS biannual meetings. Applications are available beginning December 1, 2023, at www.electrochem. org/travel-grants. The submission deadline is February 26, 2024.

SYMPOSIA FUNDING ASSISTANCE

Additional financial assistance is limited and generally governed by symposium organizers. To inquire if additional funding is available, contact the organizers of the symposium in which you are presenting.

SPONSORSHIP OPPORTUNITIES

ECS biannual meetings provide a wonderful opportunity to solidify and strengthen your brand through sponsorship. Give your brand more visibility and reinforce your position as an industry leader by sponsoring ECS meeting events. Companies can choose from a wide array of activities, from symposia to special events, which deliver worldwide recognition as a supporter of electrochemical and solid state research—and enhance ECS meetings. ECS also offers specific symposium sponsorship. By sponsoring a symposium, your company helps offset travel expenses, registration fees, complimentary proceedings, and/or hosts receptions for invited speakers, researchers, and students. Please contact sponsorship@electrochem.org for further details.

CONTACT INFORMATION If you have questions or require additional information, contact ECS. The Electrochemical Society 65 South Main Street, Pennington, NJ, 08534-2839, USA Tel: 1.609.737.1902; fax: 1.609.737.2743 meetings@electrochem.org www.electrochem.org

Call for Papers • 245th ECS Meeting • SAN FRANCISCO, CA • May 26-30, 2024 • www.electrochem.org

245th ECS MEETING – SYMPOSIUM TOPICS AND DEADLINES A—Batteries and Energy Storage A01—New Approaches and Advances in Electrochemical Energy Systems: In Memory of Sri Narayan A02—Lithium Ion Batteries A03—Large Scale Energy Storage A04—Battery Material Scale-up and Manufacturing A05—Battery Student Slam 8 B—Carbon Nanostructures and Devices B01—Carbon Nanostructures for Energy Conversion and Storage B02—Carbon Nanostructures in Medicine and Biology B03—Carbon Nanotubes – From Fundamentals to Devices B04—NANO in India B05—Fullerenes – Endohedral Fullerenes and Molecular Carbon, in Memory of Bob Curl

I05—Mechano-Electro-Chemical Coupling in Energy Related Materials and Devices 5 I06—Energy Conversion Based on N, P, and Other Nutrients 3 K—Organic and Bioelectrochemistry K01—Advances in Organic and Biological Electrochemistry: In Memory of Diane Smith K02—Bioelectrochemistry – From Ions to Proteins to Living Organisms K03—Organic and Biological 3D Electrode Architectures L—Physical and Analytical Electrochemistry, Electrocatalysis, and Photoelectrochemistry L01—Physical and Analytical Electrochemistry, Electrocatalysis, and Photoelectrochemistry General Session L02—Computational Electrochemistry 9 L03—Electrochemical Studies by Synchrotron Techniques 3 L04—Bioelectroanalysis and Bioelectrocatalysis 3

B06—2D Layered Materials from Fundamental Science to Applications

L05—Electrochemistry at the Nanoscale 2

B07—Light Energy Conversion with Metal Halide Perovskites, Inorganic/ Organic Hybrid Materials, and Dynamic Exciton

L06—Analytical Electrochemistry for Electrosynthesis

B08—Porphyrins, Phthalocyanines, and Supramolecular Assemblies B09—Nano for Industry B10—On-Surface Synthesis of Carbon Nanomaterials C—Corrosion Science and Technology C01—Corrosion General Session D—Dielectric Science and Materials D01—Chemical Mechanical Polishing 17 D02—Dielectrics for Nanosystems 10: Materials Science, Processing, Reliability, and Manufacturing D03—Nanoscale Luminescent Materials 8 D04—Quantum Dot Science and Technology 3 D05—Plasma Electrochemistry and Catalysis 3

L07—Electrochemistry and Switchable Qubits M—Sensors M01—Recent Advances in Sensors Systems 5 M02—Printed and Wearable Sensors and Systems M03—Sensors for Energy Production, Conversion, and Storage Z—General Z01—General Student Poster Session Z02—Education in Electrochemistry 4 Z03—Electrochemical Recovery, Recycling, and Sustainability of Critical and Value-Added Materials 2 Z04—Electrochemistry for Chemical Manufacturing 2 Z05—Materials, Devices, and Systems for Neuromorphic Computing and Artificial Intelligence Hardware

E—Electrochemical/Electroless Deposition E01—Magnetic Materials Processes and Devices 16 F—Electrochemical Engineering F01—Advances in Industrial Electrochemistry and Electrochemical Engineering F02—Highlighting Startups Pursuing Electrochemical Manufacturing G—Electronic Materials and Processing G01—Silicon Compatible Emerging Materials, Processes, and Technologies for Advanced CMOS and Post-CMOS Applications 14 G02—Organic Semiconductor Materials, Devices, and Processing 9 H—Electronic and Photonic Devices and Systems H01—Wide-Bandgap Semiconductor Materials and Devices 25 H02—Solid-State Electronics and Photonics in Biology and Medicine 10 I—Fuel Cells, Electrolyzers, and Energy Conversion I01—Low Temperature Water Electrolysis (LT-WE) for H2 Production 2 I02—Renewable Fuels via Artificial Photosynthesis or Heterocatalysis 10

Important Dates and Deadlines Meeting abstract submission opens..............................................August 2023 Meeting abstracts submission deadline................................December 1, 2023 Notification to corresponding authors of abstract acceptance or rejection.......................................February 12, 2024 Technical program published online....................................February 12, 2024 Meeting registration opens.........................................................February 2024 ECS Transactions submission site opens.............................February 16, 2024 Travel grant application deadline.........................................February 26, 2024 Meeting sponsor and exhibitor deadline |(for inclusion in printed materials)..........................................March 15, 2024 ECS Transactions submission deadline...................................March 15, 2024 Travel grant approval notification................................................April 8, 2024 Hotel and early meeting registration deadlines.............................May 6, 2024 Release date for ECS Transactions....................... On or before May 17, 2024

I03—Materials for Low Temperature Electrochemical Systems 10 I04—Electrosynthesis of Fuels 8

Call for Papers • 245th ECS Meeting • SAN FRANCISCO, CA • May 26-30, 2024 • www.electrochem.org

A—Batteries and Energy Storage New Approaches and Advances in Electrochemical A01 Energy Systems: In Memory of Sri Narayan Energy Technology Division; Battery Division; Industrial Electrochemistry and Electrochemical Engineering Division The symposium focuses on novel, innovative, and “outside-of-the-box” approaches and developments in materials, components, and systems for addressing the grand challenges in the area of electrochemical energy systems. Of particular interest are innovations in materials, methods, designs, and analytical strategies for realizing sustainable and efficient energy conversion, storage, and transmission, not limited to fuel cells, batteries, capacitors, PEC, and photovoltaics. Contributions to new methods to characterize, model, and analyze interfaces, cell, and system performances in aqueous and non-aqueous environments are of particular interest. The symposium features oral presentations, posters, and invited talks from subject matter experts. As a part of this symposium, under “Ideas, Interchange & Initiative” (Triple I), abstracts can be submitted based on premature and unexplainable results. The session aims to accomplish a complete exchange of scientific ideas and related difficulties in understanding and interpreting the findings. Speakers are expected to present their results in <10 minutes and reserve the remaining time for discussions between the speaker and the audience to explore solutions and collaboration. Please label your talk as A1—Triple I. This symposium is dedicated in memory of Prof. Sri Narayan and his scientific contributions. This symposium’s proceedings are published in ECS Transactions and available at the meeting. Authors accepted for presentation are strongly encouraged to submit their full-text manuscript for the issue no later than March 15, 2024. Submit all manuscripts online in either MS Word or PDF format. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Ayyakkannu Manivannan, Global Pragmatic Materials, email: manigpm1@outlook.com; Brett L. Lucht, University of Rhode Island, email: blucht@uri.edu; Loraine Torres-Castro, Sandia National Laboratories, email: ltorre@sandia. gov; Chockkalingam Karuppaiah, Vetri Labs, email: chock. karuppaiah@vetrilabs.com; Ratnakumar V. Bugga, Lyten, email: kumar. bugga@lyten.com.

Lithium Ion Batteries

A02 Battery Division

Lithium ion batteries have driven the portable electronics market’s tremendous growth and their use in transportation and grid storage sectors is expanding at a fast rate. Further boosting the energy density of these batteries requires higher voltages and greater electrode materials capacity. This symposium is intended to provide a forum for dissemination of new advances and developments in Li-ion batteries which includes new or improved materials and understanding, electrolytes, interfaces/ interphases, separators, and electrochemical testing. This symposium is not publishing an issue of ECS Transactions. ECS encourages presenters to submit to the ECS Family of Journals as an alternate publishing opportunity. Learn more at https://www.electrochem. org/publications. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Kang Xu, ARL, email: conrad.k.xu.civ@mail.mil; Jie Xiao, University of Arkansas, Pacific Northwest National Lab, email: jie.xiao@pnnl.gov; Y. Shirley Meng, University of California, San Diego, email: shmeng@ucsd.edu.

Large Scale Energy Storage

A03 Battery Division; Energy Technology Division Electrical energy storage is critical for supporting the integration of renewable energy sources (e.g., wind and solar) and increasing the capacity and reliability of the future electricity grid. Electrochemical energy storage systems have the potential to fulfill this need. This symposium seeks oral and poster presentations on advances in materials, technology and designs, results of performance demonstrations, and economics analysis. The technologies of interest include redox-flow battery systems, metal-air rechargeable batteries, electrolyzers, capacitors, and other rechargeable electrochemical energy storage systems that have the potential to meet the cost and efficiency requirements of large-scale deployment. This symposium is not publishing an issue of ECS Transactions. ECS encourages presenters to submit to the ECS Family of Journals as an alternate publishing opportunity. Learn more at https://www.electrochem. org/publications. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Daniel Steingart, Columbia University, email: dan.steingart@columbia.edu; Joshua W. Gallaway, Northeastern University, email: joshuagallaway@gmail.com; Nian Liu, Georgia Institute of Technology, email: nian.liu@chbe.gatech.edu; Jacob S. Spendelow, Los Alamos National Labs, email: spendelow@lanl. gov; Ertan Agar, University of Massachusetts Lowell, email: ertan_ agar@uml.edu.

Battery Material Scale-up and Manufacturing

A04 Battery Division

A key prerequisite for battery manufacturing is designing cell components that fulfill the targeted performance metrics and can be scaled up in a costeffective manner. Conventional experimental R&D efforts employing design of experiments (DoE) methods have been successfully used for materials discovery and process optimization. However, these empirical methods are often time and resource expensive. Thus, a new battery innovation may take years to be deployed in production. Recently, high throughput (HTP) experimentation and machine learning (ML) have been introduced to accelerate battery materials discovery and manufacturing optimization by rapidly revealing patterns that are difficult to recognize using conventional analysis methods. Therefore, combinations of DoE, HTP experimentation, and digital tools including ML/AI have received increasing attention. Furthermore, there has been increased attention paid to sustainable manufacturing, including design of battery cells, modules, and packs with reduced energy and raw material waste streams. Ultimately, end-of-life considerations must be taken into account, which requires new processes for recycling. Finally, new manufacturing processes have been developed for control of advanced electrode architectures, including solid-solid interfaces in solid state batteries. Accordingly, researchers seek to speed up materials discovery, manufacturing optimization, technology integration in real battery cells, and battery recycling, with the goal of overcoming tradeoffs between performance, quality control, throughput, cost, and sustainability during manufacturing. In this symposium, we invite world-leading experts/researchers in this area to discuss topics broadly covering the science of materials scale-up, high throughput synthesis and characterization, ML/AI assisted materials discovery and manufacturing optimization, sustainable manufacturing, recycling, and advanced cell integration, and manufacturing technologies. The scaled-up material systems and processes covered include, but are not limited to, cathodes, anodes, separators, liquid electrolytes, and solid electrolytes. Experimental and computational studies are equally welcome. Student participation is highly encouraged. This symposium is not publishing an issue of ECS Transactions. ECS encourages presenters to submit to the ECS Family of Journals as an alternate publishing opportunity. Learn more at https://www.electrochem. org/publications. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Dongping Lu, Pacific Northwest National Laboratory, email: Dongping.Lu@pnnl.gov; Neil P. Call for Papers • 245th ECS Meeting • SAN FRANCISCO, CA • May 26-30, 2024 • www.electrochem.org

Dasgupta, University of Michigan, email: ndasgupt@umich.edu; Jagjit Nanda, Oak Ridge National Laboratory, email: nandaj@ornl.gov; Fang Dai, General Motors, email: fang.dai@gm.com.

Battery Student Slam 8

A05 Battery Division

This special symposium is dedicated to students working on energy storage and energy conversion. In the student slam, we offer an opportunity for students to present flash oral presentations of their work in a 10-minute time slot. All students enrolled at any valid degree-granting institution may submit an abstract describing the presentation. Of particular interest are new materials and designs, performance studies, and modeling of all types of batteries, supercapacitors, and fuel cells, including aqueous, nonaqueous, polymer electrolytes, solid electrolytes, and flow systems. This symposium is not publishing an issue of ECS Transactions. ECS encourages presenters to submit to the ECS Family of Journals as an alternate publishing opportunity. Learn more at https://www.electrochem. org/publications. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Feng Lin, Virginia Polytechnic Institute and State University, email: fenglin@vt.edu; Chixia Tian, Virginia Polytechnic Institute and State University, email: ctian@vt.edu.

B—Carbon Nanostructures and Devices Carbon Nanostructures for Energy Conversion B01 and Storage Nanocarbons Division; Battery Division; Dielectric Science and Technology Division Papers are invited in the following areas related to energy conversion and storage using nanocarbons: synthesis and characterization of relevant nanoparticles and nanostructures; functionalization with chromophores; inducing chemical reactions with strong photon-molecule coupling fields; size- and shape-dependent photocatalytic properties; photochemical solar cells; and photocatalysis and electron transfer studies relevant to energy conversion and storage. This symposium is not publishing an issue of ECS Transactions. ECS encourages presenters to submit to the ECS Family of Journals as an alternate publishing opportunity. Learn more at https://www.electrochem. org/publications. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Andrew Ferguson, National Renewable Energy Laboratory, email: andrew.ferguson@nrel.gov; KyuYoung Park, POSTECH, email: kypark0922@postech.ac.kr; Uros Cvelbar, Jožef Stefan Institute, email: uros.cvelbar@ijs.si; Jeff L. Blackburn, National Renewable Energy Laboratory, email: jeffrey. blackburn@nrel.gov; Avetik Harutyunyan, Honda Research Institute USA Inc., email: aharutyunyan@honda-ri.com; Chunsheng Wang, University of Maryland, email: cswang@umd.edu.

Carbon Nanostructures in Medicine and Biology B02 Nanocarbons Division; Organic and Biological Electrochemistry Division Original papers are solicited on all biological and biomedical aspects of fullerenes, metallofullerenes, carbon nanotubes, graphene, and related nanocarbons. Topics include therapeutics, drug delivery, sensors, plant biology, nutrition, and toxicology. This symposium is not publishing an issue of ECS Transactions. ECS encourages presenters to submit to the ECS Family of Journals as an alternate publishing opportunity. Learn more at https://www.electrochem. org/publications. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Delphine Bouilly, Université Call for Papers • 245th ECS Meeting • SAN FRANCISCO, CA • May 26-30, 2024 • www.electrochem.org

de Montréal, email: delphine.bouilly@umontreal.ca; Ardemis Boghossian, École Polytechnique Fédérale de Lausanne, email: ardemis. boghossian@epfl.ch; Tatiana DaRos, Università degli Studi di Trieste, email: daros@units.it; Markita Landry, University of California, Berkeley, email: landry@berkeley.edu; Jeffrey Halpern, University of New Hampshire, email: jeffrey.halpern@Unh.edu; Mekki Bayachou, Cleveland State University, email: m.bayachou@csuohio.edu; Jessica Koehne, NASA Ames Research Center, email: jessica.e.koehne@nasa. gov; Anton Naumov, Texas Christian University, email: a.naumov@tcu. edu; Nicole Iverson, University of Nebraska–Lincoln, email: Iverson@ unl.edu; Noe Alvarez, University of Cincinnati, email: alvarene@ucmail. uc.edu; Daniel A Heller, Memorial Sloan-Kettering Cancer Center, email: hellerd@mskcc.org.

Carbon Nanotubes - From Fundamentals to Devices

B03 Nanocarbons Division

Papers are solicited on experimental and theoretical studies related to the basic chemistry, physics, and materials science of carbon nanotubes, as well as on novel nanotube applications in areas such as electronic devices, sensors, and materials development. This symposium is not publishing an issue of ECS Transactions. ECS encourages presenters to submit to the ECS Family of Journals as an alternate publishing opportunity. Learn more at https://www.electrochem. org/publications. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Ming Zheng, National Institute of Standards and Technology, email: ming.zheng@nist.gov; R. Bruce Weisman, Rice University, email: weisman@rice.edu; Slava V. Rotkin, Pennsylvania State University, email: rotkin@psu.edu; Shigeo Maruyama, University of Tokyo, email: maruyama@photon.t.u-tokyo. ac.jp; Yan Li, Peking University, email: yanli@pku.edu.cn; Benjamin Scott Flavel, Karlsruher Institut für Technologie, email: benjamin.flavel@ kit.edu; Yutaka Ohno, Nagoya University, email: yohno@nagoya-u. jp; Emilio M Perez, IMDEA Nanociencia, email: emilio.perez@imdea. org; YuHuang Wang, University of Maryland, email: yhw@umd.edu.

NANO in India

B04 Nanocarbons Division This focused mega-symposium is dedicated to covering science and applications in nanocarbons and other nanoscale materials and presenting the contemporary state of the art of this field in India. This meeting’s primary goal is to share the most recent results and promote U.S. global scientific cooperation efforts. Papers are solicited on experimental and theoretical studies related to the basic chemistry, physics, materials science, and engineering of nanocarbons, fullerenes, porphyrins, supramolecular, inorganic-organic hybrid and functional materials, nanotubes, graphene and 2D layered materials, as well as on their novel applications in areas such as energy and catalytic conversion, sensors, medicine and biology, electronic and photonic devices, and materials development. This symposium is not publishing an issue of ECS Transactions. ECS encourages presenters to submit to the ECS Family of Journals as an alternate publishing opportunity. Learn more at https://www.electrochem. org/publications. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Slava V. Rotkin, Pennsylvania State University, email: vvr5@psu.edu; Francis D’Souza, University of North Texas, email: francis.dsouza@unt.edu; Anunay Samanta, University of Hyderabad, email: anunay@uohyd.ac.in; K. George Thomas, Indian Institute of Science Education and Research Thiruvananthapuram, email: kgt@iisertvm.ac.in; Angshuman Nag, Indian Institute of Science Education and Research Pune, email: angshuman@iiserpune.ac.in.

Fullerenes – Endohedral Fullerenes and Molecular

B05 Carbon, in Memory of Bob Curl Nanocarbons Division

Original papers are invited in all areas of fullerenes, carbon nanorings, and molecular carbon sciences, including their syntheses, endohedral and/or exohedral functionalizations, characterizations, electrochemistry, photochemistry, photophysics, electron-transfer chemistry, photoelectrochemistry, applications in energy conversion, energy storage, catalysis, sensor, etc., and theoretical studies. We are devoting this year’s B05 symposium to the late Robert (Bob) Curl, who passed away on July 3, 2022. Bob and his colleagues Rick Smalley and Harold Kroto led studies in 1985 that enabled the discovery of fullerenes, an achievement that was honored with the 1996 Nobel Prize in Chemistry. This symposium is not publishing an issue of ECS Transactions. ECS encourages presenters to submit to the ECS Family of Journals as an alternate publishing opportunity. Learn more at https://www.electrochem. org/publications. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Yoko Yamakoshi, University of Pennsylvania, email: yamakoshi@org.chem.ethz.ch; Alan Balch, University of California, Davis, email: albalch@ucdavis.edu; Francis D’Souza, University of North Texas, email: francis.dsouza@unt.edu; Luis Echegoyen, University of Texas at El Paso, email: echegoyen@utep. edu; Dirk Guldi, Friedrich-Alexander-Universität Erlangen-Nürnberg, email: dirk.guldi@fau.de; Nazario Martin, Universidad Complutense de Madrid, email: nazmar@quim.ucm.es; Steven Stevenson, Purdue University, email: stevenss@pfw.edu; Shangfeng Yang, University of Science and Technology China, email: sfyang@ustc.edu.cn; Akimitsu Narita, Okinawa Institute of Science and Technology, email: akimitsu. narita@oist.jp; Uros Cvelbar, Jožef Stefan Institute, email: uros. cvelbar@ijs.si.

2D Layered Materials from Fundamental Science to

B06 Applications

Nanocarbons Division; Dielectric Science and Technology Division

The ability to create and manipulate atomic-layer thick materials, commonly known as two-dimensional layered materials (2DLMs) is expected to transform material science and derivative technology. This symposium focuses on the synthesis, chemical and physical characterization, functionalization, manipulation, metrology, and applications of 2DLMs and their nanostructures. This symposium embraces sessions on classical 2D materials such as graphene, BN, metal dichalcogenides, and other emerging 2D materials (e.g., silicenes, phosphorenes, etc.). Papers dealing with optical, electronic, and electrochemical applications of such 2DLMs and their composites are welcomed. This symposium is not publishing an issue of ECS Transactions. ECS encourages presenters to submit to the ECS Family of Journals as an alternate publishing opportunity. Learn more at https://www.electrochem. org/publications. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Michael Scott Arnold, University of Wisconsin–Madison, email: msarnold@wisc.edu; Yaw Obeng, National Institute of Standards and Technology, email: yaw. obeng@nist.gov; Stefan De Gendt, Katholieke Universiteit Leuven, email: Stefan.DeGendt@imec.be; Zia Karim, Yield Engineering Systems, email: ZKarim@yieldengineering.com; Stephen E. Creager, Clemson University, email: screage@clemson.edu; Elisa M Miller-Link, National Renewable Energy Laboratory, email: Elisa.miller@nrel.gov; Richard Martel, Université de Montréal, email: r.martel@umontreal.ca; Uros Cvelbar, Jožef Stefan Institute, email: uros.cvelbar@ijs.si; Slava Rotkin, Pennsylvania State University, email: rotkin@psu.edu.

Light Energy Conversion with Metal Halide

B07 Perovskites, Inorganic/Organic Hybrid Materials, and Dynamic Exciton Nanocarbons Division

Metal, semiconductor, and organic nanoparticles and nanostructures play important roles in fuel cells, solar energy conversion, catalysis, and hydrogen production. Recent advances in the area of inorganic/ organic hybrid nanostructures, in particular metal halide perovskites, and nanomaterials have led to new understanding of their catalytic, photoelectrochemical, and photovoltaic properties. Papers are invited in the following areas: metal halide perovskites for light energy conversion; synthesis and characterization of metal, semiconductor, and organic nanoparticles and nanostructures; their functionalization with chromophores; strong photon-molecule coupling fields for chemical reactions; bimetallic particle and semiconductor metal composites; sizedependent catalytic properties; hydrogen evolution and carbon dioxide reduction; photochemical, photoelectrochemical, and photovoltaic solar cells and devices; photocatalysis and electron and energy transfer processes that are relevant to energy conversions; “Soft Crystals,” which responds to macroscopic gentle stimuli (e.g., vapor exposure, rubbing, and rotation) that exhibit visually remarkable changes such as luminescence and optical properties; and “Dynamic Exciton,” which focuses on manipulating charge-transfer states (i.e., charge-transfer exciton) for energy conversion such as organic photovoltaics and light-emitting diodes, specifically in terms of spin-orbit and vibronic couplings. This symposium is not publishing an issue of ECS Transactions. ECS encourages presenters to submit to the ECS Family of Journals as an alternate publishing opportunity. Learn more at https://www.electrochem. org/publications. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Hiroshi Imahori, Kyoto University, email: imahori@scl.kyoto-u.ac.jp; Kei Murakoshi, Hokkaido University, email: kei@sci.hokudai.ac.jp; Tsukasa Torimoto, Nagoya University, email: torimoto@chembio.nagoya-u.ac.jp; Mahesh Hariharan, Indian Institute of Science Education and Research Thiruvananthapuram, email: mahesh@iisertvm.ac.in; Zhiqun Lin, National University of Singapore, email: z.lin@nus.edu.sg; Prashant V. Kamat, University of Notre Dame, email: pkamat@nd.edu.

Porphyrins, Phthalocyanines, and Supramolecular

B08 Assemblies

Nanocarbons Division

This symposium highlights recent advances in porphyrins, phthalocyanines, and their supramolecular assemblies. A wide range of topics is covered in order to generate interdisciplinary discussions between participants and encourage the exchange of new ideas. We therefore solicit high quality contributions in areas ranging from the synthesis of challenging porphyrin- and phthalocyanine-based devices to the characterization of electrochemical and physicochemical behavior of new porphyrin and phthalocyanine materials. Submissions are encouraged on the following topics: 1) New challenging multi-porphyrin and phthalocyanine devices; 2) Electronic properties of porphyrin and phthalocyanine arrays; 3) Photoinduced processes in molecular and supramolecular porphyrin and phthalocyanine assemblies; 4) Novel porphyrin- and phthalocyanine-modified electrodes. This symposium is not publishing an issue of ECS Transactions. ECS encourages presenters to submit to the ECS Family of Journals as an alternate publishing opportunity. Learn more at https://www.electrochem. org/publications. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Nathalie Solladie, Laboratoire de Chimie de Coordination de Toulouse, email: nathalie. solladie@lcc-toulouse.fr; Karl Kadish, University of Houston, email: kkadish@uh.edu; Tomas Torres, Universidad Autónoma de Madrid, email: tomas.torres@uam.es; Roberto Paolesse, Università di Roma Tor Call for Papers • 245th ECS Meeting • SAN FRANCISCO, CA • May 26-30, 2024 • www.electrochem.org

Vergata, email: roberto.paolesse@uniroma2.it; Norbert Jux, FriedrichAlexander-Universität Erlangen-Nürnberg, email: norbert.jux@fau. de; Ãngela Sastre-Santos, Universidad Miguel Hernández de Elche, email: asastre@umh.es.

Nano for Industry

B09 Nanocarbons Division; Dielectric Science and

Technology Division; Industrial Electrochemistry and Electrochemical Engineering Division

This symposium provides a platform for a forum bringing together the academic community, representatives of research institutions and national labs, and industry working in the fields of nanocarbon, 2D, and other nanomaterials and their applications. This symposium is not publishing an issue of ECS Transactions. ECS encourages presenters to submit to the ECS Family of Journals as an alternate publishing opportunity. Learn more at https://www.electrochem. org/publications. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: R. Bruce Weisman, Rice University, email: weisman@rice.edu; Dan Wang, Faraday Technology, Inc, email: danwang@faradaytechnology.com; Thorsten Lill, Lam Research, email: Thorsten.Lill@lamresearch.com; Oana M. Leonte, Berkeley Polymer Technologies, Inc., email: oana.leonte@yahoo. com; David Estrada, Boise State University, email: daveestrada@ boisestate.edu; Mark C Hersam, Northwestern University, email: m-hersam@northwestern.edu; Slava Rotkin, Pennsylvania State University, email: rotkin@psu.edu.

On-Surface Synthesis of Carbon Nanomaterials

B10 Nanocarbons Division

This symposium provides a platform for discussion on recent advances in the “on-surface synthesis of carbon nanomaterials” and their inspection with state-of-the-art scanning probe microscopies and photo-electron spectroscopies. Topics of discussion include among others: Growth of nanocarbons on metals and on decoupling supports, novel chemical reactions on surfaces, photo-induced on-surface synthesis, expression of π-magnetism, emergence of complex quantum phases of matter, transfer to devices, electroluminescence, photoluminescence, quantum sensing and catalysis. This symposium gathers both chemical and physical communities as well as theoreticians in a topic on the borderline of both disciplines. This symposium is not publishing an issue of ECS Transactions. ECS encourages presenters to submit to the ECS Family of Journals as an alternate publishing opportunity. Learn more at https://www.electrochem. org/publications. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Nazario Martin, Universidad Complutense de Madrid, email: nazmar@quim.ucm.es; Hiroshi Imahori, Kyoto University, email: imahori@scl.kyoto-u.ac.jp; David Ecija, IMDEA, Nanoscience Institute, email: david.ecija@imdea.org; Wilhelm Auwarter, Technische Universität München, email: wau@tum.de.

C—Corrosion Science and Technology Corrosion General Session

C01 Corrosion Division

Oral and poster presentations concerning all aspects of corrosion and associated phenomena in liquid and gaseous phases are welcome. Theoretical analysis, experimental investigations, descriptions of new techniques for the study of corrosion, and analyses of corrosion products and films are of interest.

Call for Papers • 245th ECS Meeting • SAN FRANCISCO, CA • May 26-30, 2024 • www.electrochem.org

D—Dielectric Science and Materials Chemical Mechanical Polishing 17

D01 Dielectric Science and Technology Division This symposium brings together engineers and scientists from around the world to address both fundamentals and current research topics in this vital planarization and surface finishing technology. The symposium also discusses particle synthesis, emerging applications, and other relevant issues of this enabling technology. Abstracts are being solicited in the following areas: • CMP fundamental science and technology • Heterogeneous integrations enabled by CMP • CMP surface reactions and electrochemical effects • Novel abrasives and synthesis techniques • CMP of SiC and other wide bandgap materials • CMP of III-V and II-VI materials • Post CMP cleaning • Other emerging applications of CMP All the accepted abstracts are eligible and encouraged to be submitted as full papers to the forthcoming CMP Special Issue in honor of Prof. Babu (https://www.electrochem.org/ecsnews/fi-cmp-s-v-babu). Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Bahar Basim, Intel Corporation, email: g.bahar.basim@intel.com; Yaw Obeng, National Institute of Standards and Technology, email: yaw.obeng@nist. gov; Vimal H. Chaitanya, New Mexico State University, email: vimalc@ nmsu.edu; Robert L. Rhoades, X-trinsic Inc., email: zestrion@gmail. com; Gautam Banerjee, IBM Semiconductors, email: gbanerje@gmail. com; Jason Keleher, Lewis University, keleheja@lewisu.edu.

Dielectrics for Nanosystems 10: Materials Science,

D02 Processing, Reliability, and Manufacturing Dielectric Science and Technology Division

Advanced semiconductor products that are true representatives of nanoelectronics have reached below 12 nm. Depending on the application, the nanosystem may consist of one or more of the following types of functional components: electronic, optical, magnetic, mechanical, biological, chemical, energy sources, and various types of sensing devices. As long as one or more of these functional devices is in 1-100 nm dimensions, the resultant system can be defined as a nanosystem. Papers are solicited in all areas of dielectric issues in nanosystems including gate dielectric materials for Si, SiC, SiGe, Ge, ferroelectric, neuromorphic, and III-V semiconductor devices; dielectric materials for devices based on nanowires, nanotubes, and grapheme; 2D semiconductors and dielectric materials for high temperature and energy savings and harvesting applications; and dielectric materials for sensing devices. In addition to traditional areas of semiconductor processing, novel topological insulators are of interest, which may lead to new applications of nanosystems. We have a special session on data driven dielectrics. Recently, data-driven materials science is of great concern because it opens a door to discovering new innovative materials. This method can

be applied to dielectric materials. Here at first, a database is prepared by automatic calculation, and the virtual screening is done using the database by machine learning. Then, high throughput real screening is done for the candidates to find a new dielectric. In this session, we demonstrate the workflow for new dielectric and showcase the discovery. This symposium’s proceedings are published in ECS Transactions and available at the meeting. Authors accepted for presentation are strongly encouraged to submit their full text manuscript for the issue no later than March 15, 2024. Submit all manuscripts online in either MS Word or PDF format. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Durgamadhab Misra, New Jersey Institute of Technology, email: dmisra@njit.edu; Toyohiro Chikyow, National Institute for Materials Science, email: Chikyo.toyohiro@nims. go.jp; Dong-Kyun Ko, New Jersey Institute of Technology, email: dkko@ njit.edu; Yaw Obeng, National Institute of Standards and Technology, email: yaw.obeng@nist.gov; Zhi Chen, University of Kentucky, email: zhi.chen@uky.edu; Daniel Bauza, IMEP-LAHC/Université de Savoie, email: bauza@minatec.grenoble-inp.fr; Kay Song, Yield Engineering Systems, email: KSong@yieldengineering.com.

Nanoscale Luminescent Materials 8

fabrication and measurements for electronics, optics, optoelectronics, spintronics, communications, sensors, and energy generation and storage; as well as biological applications. Also of particular interest are quantum dot technologies that support the emerging areas of memory, logic, and unconventional computing schemes. This symposium is not publishing an issue of ECS Transactions. ECS encourages presenters to submit to the ECS Family of Journals as an alternate publishing opportunity. Learn more at https://www.electrochem. org/publications. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Dong-Kyun Ko, New Jersey Institute of Technology, email: dkko@njit.edu; Vladimir Svrcek, National Institute of Advanced Industrial Science and Technology, email: vladimir. svrcek@aist.go.jp; Soong Ju Oh, Korea University, email: sjoh1982@ korea.ac.kr; Preston Todd Snee, University of Illinois at Chicago, email: sneep@uic.edu; Ivan Marri, Università degli studi di Modena e Reggio Emilia, email: marri@unimore.it; Qiliang Li, George Mason University, email: qli6@gmu.edu; Danielle Reifsnyder Hickey, Pennsylvania State University, email: drh283@psu.edu; Andrew Greytak, University of South Carolina, email: greytak@mailbox.sc.edu.

Plasma Electrochemistry and Catalysis 3

D03 Dielectric Science and Technology Division; Electronics

D05 Dielectric Science and Technology Division; Energy

This symposium focuses on those characteristics of nanoscale materials that relate to their luminescence properties. Relevant topics include effects of quantum confinement; the role of surface states; loss mechanisms; methods to improve luminescence efficiency; bulk vs. nanoparticle luminescence; and the role of phonons in nanomaterials. Presentations at this meeting cover:

This symposium invites papers dealing with the fundamental uses of plasma discharges in a variety of applications, such as electrochemistry and catalysis. Plasma electrochemistry is becoming an interesting subject with several possibilities for using plasma discharges as electrodes in contact with liquid electrolytes. Plasma electrochemistry is being exploited for nanomaterials processing and for helping the electrochemical processing of chemicals and fuels. Similarly, plasmas or excited gas phase are also being pursued synergistically with catalysis. Plasma catalysis and plasma electrochemistry are emerging multidisciplinary fields with converging fields of the gas-solid interface, catalysis, plasma science, and nanomaterials. Papers of interest deal with various aspects of plasma chemistry, plasma-solid and plasma-electrolyte interface dynamics and applications in CO2 reduction, methane reforming, ammonia formation, and other chemical processing applications. Papers dealing with fundamental concepts involving plasma chemistry and plasma electrochemistry, atmospheric plasma discharges, scale-up studies and their use in nanomaterials processing are also of interest. This symposium is not publishing an issue of ECS Transactions. ECS encourages presenters to submit to the ECS Family of Journals as an alternate publishing opportunity. Learn more at https://www.electrochem. org/publications. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Davide Mariotti, Ulster University, email: d.mariotti@ulster.ac.uk; Uros Cvelbar, Jožef Stefan Institute, email: uros.cvelbar@ijs.si; Mohan R Sankaran, University of Illinois at Urbana-Champaign, email: rmohan@illinois.edu; Mahendra Sunkara, Conn Center for Renewable Energy Research, email: mahendra@louisville.edu.

and Photonics Division

1) Basic physical properties of luminescent nanomaterials including insulators, semiconductors, organics, and polymers; 2) Nanophosphors for biophotonics and biomarkers; 3) Nanoparticles for light emitting diodes and next generation lighting applications; 4) Luminescent properties of fabricated nano-structures (nanowires, nanorods, nanodots, etc.); 5) Nanophosphors for traditional phosphor applications such as x-ray and scintillator phosphors, phosphors for VUV excitation, and persistent phosphors. Presentations should involve the physics, chemistry, and/or engineering of these materials. Selected abstracts are also chosen by the organizers for longer invited talks. This symposium’s proceedings are published in ECS Transactions and available at the meeting. Authors accepted for presentation are strongly encouraged to submit their full text manuscript for the issue no later than March 15, 2024. Submit all manuscripts online in either MS Word or PDF format. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Peter Mascher, McMaster University, email: mascher@mcmaster.ca; Dong-Kyun Ko, New Jersey Institute of Technology, email: dkko@njit.edu; David J. Lockwood, National Research Council of Canada, email: David.Lockwood@nrccnrc.gc.ca.

Quantum Dot Science and Technology 3

D04 Dielectric Science and Technology Division; Electronics and Photonics Division; Nanocarbons Division

This symposium aims to bring together scientists, researchers, industry engineers, and policymakers with diverse professional backgrounds from several countries to exchange ideas, advance knowledge, and discuss key issues across the full spectrum of fundamental science and applied engineering of quantum dots. Topics of interest include the growth and processing of epitaxial, lateral, and colloidal quantum dots; surface modification and functionalization; chemical, mechanical, thermal, magnetic, electrical, and optical property characterizations of quantum dots and their assemblies; theoretical and computational modeling; device 8

Technology Division

E—Electrochemical/Electroless Deposition Magnetic Materials Processes and Devices 16

E01 Electrodeposition Division

Magnetic thin films play important roles in data recording systems, sensors, microelectromechanical systems (MEMS), and other devices. New knowledge continues to be acquired in magnetic film processing, including film nucleation and growth, the structure of deposits, stress and micromagnetics of films, thermal and magnetic annealing, electrochemical and electroless plating systems, etching, process chemistry, tool design, Call for Papers • 245th ECS Meeting • SAN FRANCISCO, CA • May 26-30, 2024 • www.electrochem.org

process control, etc. Our understanding of the correlations between deposition parameters, film composition, structure, properties, and device performance continues to improve. The purpose of the symposium is to bring together electrochemists, physicists, engineers, and device designers working in the area of magnetic thin-film technology to review the present state of the field and to point out fruitful new areas for research. Materials of interest include Fe, Co, Ni, and their alloys and laterally patterned, laminated, or compositionally modulated structures, including nanowires and self-organized films. The symposium further covers subjects specific to the fabrication of thin-film heads, microelectromechanical systems, micromotors, and other magnetic devices, as well as magnetic materials for inductors and transformers in RF devices, magnetic oxides, and ferroelectrics. The symposium includes invited reviews or tutorial papers and contributed papers. This symposium’s proceedings are published in ECS Transactions and available at the meeting. Authors accepted for presentation are strongly encouraged to submit their full text manuscript for the issue no later than March 15, 2024. Submit all manuscripts online in either MS Word or PDF format. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Stanko Brankovic, University of Houston, email: SRBrankovic@uh.edu; Adriana Ispas, Technische Universität Ilmenau, email: Adriana.Ispas@tu-ilmenau.de; Luca Magagnin, Politecnico di Milano, email: luca.magagnin@polimi.it.

F—Electrochemical Engineering

F01

Advances in Industrial Electrochemistry and Electrochemical Engineering Industrial Electrochemistry and Electrochemical Engineering Division; Electrodeposition Division

Papers are solicited in areas of industrial electrochemistry and electrochemical engineering that are not covered by other symposia at this meeting. Of particular interest are papers concerning design, operation, testing and/or modeling of industrial electrochemical systems; electrochemical waste treatment technologies, methods for electrosynthesis; electrolytic recovery of process materials; new electrode materials, new electrochemical cell designs; and electrocatalysis. Presentations on industrially significant areas, such as chlor-alkali and fluorine production; manufacture of aluminum and other metals; use of electrochemical methods in pulp and paper bleaching; and generation of environmentally friendly bleaching chemicals and other active oxidants are also encouraged. Papers may contain both theoretical and experimental work, and papers dealing with either area are considered. This symposium is not publishing an issue of ECS Transactions. ECS encourages presenters to submit to the ECS Family of Journals as an alternate publishing opportunity. Learn more at https://www.electrochem. org/publications. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Maria Inman, Faraday Technology, Inc, email: mariainman@faradaytechnology.com; Elizabeth Biddinger, City College of New York, email: ebiddinger@ccny.cuny. edu; Paul J. A. Kenis, University of Illinois at Urbana-Champaign, email: kenis@illinois.edu.

Highlighting Startups Pursuing Electrochemical

F02 Manufacturing

Industrial Electrochemistry and Electrochemical Engineering Division; Electrodeposition Division

Electrochemistry has become a major driver of innovation in startups focused on sustainability, circular chemical manufacturing, and environmental remediation. This session welcomes contributions from pre- and post-revenue startups leveraging electrochemical engineering for societal impact. Particular areas of interest include hydrogen production, Call for Papers • 245th ECS Meeting • SAN FRANCISCO, CA • May 26-30, 2024 • www.electrochem.org

water/wastewater treatment, electrified chemical manufacturing, and carbon capture. Contributions focusing on translation pathways from academic research to customer discovery and pilot-scale installations, and implementation-oriented work focusing on reactor configuration, optimization of operating conditions, and situating novel insights within existing process flow diagrams are highlighted. Students are particularly welcome to attend and learn about exciting new startups where they might leverage their electrochemistry skillsets. This symposium is not publishing an issue of ECS Transactions. ECS encourages presenters to submit to the ECS Family of Journals as an alternate publishing opportunity. Learn more at https://www.electrochem. org/publications. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: William Abraham Tarpeh, Stanford University, email: wtarpeh@stanford.edu; Juan A. Lopez-Ruiz, Pacific Northwest National Laboratory, email: juan.lopezruiz@pnnl.gov.

G—Electronic Materials and Processing Silicon Compatible Emerging Materials, Processes,

G01 and Technologies for Advanced CMOS and Post-

CMOS Applications 14 Electronics and Photonics Division; Dielectric Science and Technology Division

This symposium focuses on the science of advanced materials, processing, devices, architectures, and applications required to enhance the performance of silicon compatible CMOS and post-CMOS technology. Topics of particular focus relate to analog and digital integrated circuits; non-volatile memory; neuromorphic, spin, and quantum technology. Special interest relates to nanostructures and materials to further enable new functionalities thereby augmenting the current computing and hardware paradigm. Topics of interest include: 1) Materials and processes needed to realize advanced devices for increased performance, while reducing power consumption and cost-of-ownership. Examples of devices include FinFET, ultrathin body SOI, nanowires, nanosheets, Gate-All-Around devices, among others that can be synthesized on large area silicon wafers by epitaxial or other innovative methods. Negative capacitance devices based on binary or ternary oxides, ferroelectric materials, and similar processes integrated on silicon are also invited. Synthesis of the new materials as well as unit processes that are essential for the realization of successful device structures are of particular interest, specifically if augmented by novel thin-film deposition (ALD/CVD), dry etch (RIE/ALE), and wet processing techniques. Topics of interest also include high-performance gate stacks, high mobility channel materials, strain engineering, low-resistivity contacts, source/drain epitaxy for strain, junction formation, low-k dielectrics, and interconnect technology, among others. Process technology contributions describing challenges to fabricate the above advanced structures for applications ranging from highfrequency 5G, artificial intelligence, smart home, and other highfrequency and high-bandwidth applications are also welcome. 2) Materials, processes, devices, and technology for optical, laser, RF, and other nonconventional nanoelectronics devices. This includes advanced power electronics devices, for example, including innovation in SiC and GaN technologies, micro-LED devices, and high-frequency RF devices based on non-Si technologies. Monolithic integration in Si and group-IV alloys, InP and GaAs based photonic devices in Si, optical interconnect technology, other optical devices on silicon (lasers, LEDs, detectors amplifiers, etc.) are also invited.

3) Materials, processes, devices, and technology for enabling neuromorphic, spin, and quantum devices. Novel non-volatile memory elements, materials, and devices for neuromorphic computing: examples include MRAM, RRAM, ferroelectric RAM, and phase change memory, among others. Enhancing technologies such as diffusion barriers, high-k IPD to improve conventional DRAM and 3D NAND along with enhancements of peripheral devices are also welcome. 4) Materials, processes, and technology to enable heterogeneous integration (HI) specifically relating to 2.5D/3D through silicon via (TSV) integration, chip-to-chip, chip-to-wafer, wafer-to-wafer, and other packaging innovations. New processing technologies and equipment for synthesis and characterization of the materials and processes are also welcome. Advanced back-end materials and processes to enable chiplet stacking, redistribution layers (RDL) and optical interconnect processes, and other advanced processes. This symposium’s proceedings are published in ECS Transactions and available at the meeting. Authors accepted for presentation are strongly encouraged to submit their full text manuscript for the issue no later than March 15, 2024. Submit all manuscripts online in either MS Word or PDF format. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Hemanth Jagannathan, IBM Corporation Research Center, email: jhemanth@us.ibm.com; Zia Karim, Yield Engineering Systems, email: ZKarim@yieldengineering. com; Kuniyuki Kakushima, Tokyo Institute of Technology, email: kakushima.k.aa@m.titech.ac.jp; Paul J. Timans, Thermal Process Solutions Limited, email: pjtimans@gmail.com; Evgeni Gousev, Qualcomm Technologies, Inc., email: egousev@qti.qualcomm. com; Stefan De Gendt, Katholieke Universiteit Leuven, email: Stefan. DeGendt@imec.be; Durgamadhab Misra, New Jersey Institute of Technology, email: dmisra@njit.edu; Yaw Obeng, National Institute of Standards and Technology, email: yaw.obeng@nist.gov; Fred Roozeboom, Universiteit Twente and LionVolt B.V., email: f.roozeboom@utwente.nl.

Organic Semiconductor Materials, Devices, and

G02 Processing 9

Electronics and Photonics Division

This is the ninth symposium in this series and the objective is to link processing and materials studies to devices and technological applications. The symposium covers a wide range of topics related to broadly understood science and technology of organic/polymeric semiconductor materials, processes, devices, and applications. The list of topics of interests includes, but is not limited to, the following: 1)

Chemistry of organic/polymeric semiconductors and its impact on material and device characteristics; 2) Physical phenomena underlying operation of organic/polymeric semiconductor devices; 3) Deposition methods: PVD, solution processing, printing, and others; 4) Substrates: conductive and non-conductive, mechanically rigid and flexible; 5) Electronic devices: TFTs, contacts, organic dielectric semiconductor material systems, charge transport, modeling; 6) Photonic devices: light emitting diodes, photodiodes, and solar cells; 7) Display and lighting applications; 8) Patterning of organic semiconductors to create desired device geometries; 9) Large area organic semiconductor electronics and photonics, rollto-roll processing; 10) Reliability, stability, and reproducibility of device characteristics. This symposium’s proceedings are published in ECS Transactions and available at the meeting. Authors accepted for presentation are strongly encouraged to submit their full text manuscript for the issue no later than March 15, 2024. Submit all manuscripts online in either MS Word or PDF format. 10

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Benjamin Iniguez, Universitat Rovira I Virgili, email: benjamin.iniguez@urv.cat; Jamal Deen, McMaster University, email: jamal@mcmaster.ca; Hagen Klauk, Max-Planck-Institut für Festkörperforschung, email: h.klauk@fkf.mpg. de; David J. Gundlach, National Institute of Standards and Technology, email: David.gundlach@nist.gov; Zhi Chen, University of Kentucky , email: zhi.chen@uky.edu; Sunghwan Lee, Purdue University, email: sunghlee@purdue.edu.

H—Electronic and Photonic Devices and Systems Wide-Bandgap Semiconductor Materials and

H01 Devices 25

Electronics and Photonics Division; Dielectric Science and Technology Division

This symposium focuses on issues pertinent to the development of widebandgap and other compound semiconductor materials and devices. All semiconductor materials are of interest, including traditional III-V materials, III-nitrides, II-oxides, SiC, diamond, II-VI, inorganic compound semiconductors, and other emerging materials. Papers on both practical and fundamental issues are solicited. The following technical areas are of particular interest: 1) 2) 3) 4) 5) 6) 7) 8)

Emitters: light emitting diodes, light emitting transistors, laser diodes, displays, and devices for solid state lighting; Detectors: including solar cells and avalanche photodiodes; High-temperature, high-power, and high-frequency electronics; Sensor applications; Substrates for material epitaxy; Material characterization: synthesis, defect structure and luminescence; Nanoscale materials; Transparent conducting oxide films and devices, including ZnO and IGZO thin film transistors.

The goal of this symposium is to bring together the crystal growth, material processing, circuit design, process monitoring, reliability, and device application communities to review current issues and present state of the art developments in wide-bandgap and compound semiconductor technology. This symposium consists of invited and contributed papers and posters. This symposium’s proceedings are published in ECS Transactions and available at the meeting. Authors accepted for presentation are strongly encouraged to submit their full text manuscript for the issue no later than March 15, 2024. Submit all manuscripts online in either MS Word or PDF format. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Qiliang Li, George Mason University, email: qli6@gmu.edu; Jennifer Hite, U.S. Naval Research Laboratory, email: jennifer.hite@nrl.navy.mil; Vidhya Chakrapani, Rensselaer Polytechnic Institute, email: chakrv@rpi.edu; Travis J. Anderson, U.S. Naval Research Laboratory, email: travis.anderson@nrl. navy.mil; Marko Tadjer, U.S. Naval Research Laboratory, email: marko. tadjer@nrl.navy.mil; Steve Kilgore, NXP Semiconductors, email: steve. kilgore@nxp.com.

Solid State Electronics and Photonics in Biology H02 and Medicine 10 Electronics and Photonics Division This symposium aims to research utilizing the unique electronic and photonic properties of solid state materials and devices to facilitate the understanding of biomolecular interactions, study the integration of biomolecules and solid state materials, and promote the applications Call for Papers • 245th ECS Meeting • SAN FRANCISCO, CA • May 26-30, 2024 • www.electrochem.org

of solid state devices in biology and in medicine. The symposium aims to give an overview of both state-of-the-art research and technological progress in the area. Topics include but are not limited to: 1)

Interaction between nanostructured materials (nano particles, nanowire or graphene) and biomolecules (DNA, RNA, peptide, protein, metabolic molecules); 2) Solid state electronic or photonic sensor design and fabrication; 3) Surface modification and immobilization; 4) Sensor characterization; 5) Sensor models and signal analysis; 6) Integrated sensor network and systems; 7) Various sensor types: Field-effect-transistors, diodes, resistors, nano particles, surface plasma resonance, surface-enhanced Raman spectroscopy, surface acoustic wave devices, and quartz crystal microbalance; 8) Multiple sensor arrays; 9) Portable bioelectronic system for medical applications (detection, separation, purification, therapy, and image); 10) Single molecule and single cell detection; 11) DNA sequencing; 12) Inter- and intra-biomolecular interactions studied with biosensors; 13) Electrokinetics in micro- or nanofluidic systems and its applications; 14) Biomolecular nanodevices; 15) Nanopore and nanoslit bioelectronics; 16) Electric field effect on biomolecules and cells; 17) Electroporation; 18) Biomolecular devices for energy harvest; 19) Self-powered sensors and systems; etc. This symposium’s proceedings are published in ECS Transactions and available at the meeting. Authors accepted for presentation are strongly encouraged to submit their full text manuscript for the issue no later than March 15, 2024. Submit all manuscripts online in either MS Word or PDF format. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Zong-Hong Lin, National Tsing Hua University, email: linzh@mx.nthu.edu.tw; YuLin Wang, National Tsing Hua University, email: ylwang@mx.nthu. edu.tw; Wenzhuo Wu, Purdue University , email: wu966@purdue. edu; Chih Ting Lin, National Taiwan University, email: timlin@ntu. edu.tw; Toshiya Sakata, University of Tokyo, email: sakata@biofet.t.utokyo.ac.jp; Mark Ming-Cheng Cheng, University of Alabama, email: mmcheng@eng.ua.edu; Lluis Marsal, Universitat Rovira i Virgili, email: lluis.marsal@urv.cat; Revathy Padmanabhan, Indian Institute of Technology Palakkad, email: revathyp@iitpkd.ac.in.

I—Fuel Cells, Electrolyzers, and Energy Conversion Low Temperature Water Electrolysis (LT-WE) for H2

I01 Production 2

Energy Technology Division; Industrial Electrochemistry and Electrochemical Engineering Division; Physical and Analytical Electrochemistry Division

Low-cost hydrogen from renewable energy is now seen as a viable clean alternative fuel for use in applications including mobility, back-up power, and grid energy storage, as well as a feedstock for fertilizer, steel, cement, and petrochemical upgrading. In a longer term, the large-scale production of hydrogen from water electrolysis is needed for global CO2 reductions toward net-zero emissions. This symposium on low temperature water electrolysis for H2 production is a new, broad symposium envisioned to bring together the electrochemical community to focus on the technical solutions across the range of technologies including, but not limited to: Call for Papers • 245th ECS Meeting • SAN FRANCISCO, CA • May 26-30, 2024 • www.electrochem.org

polymer electrolyte (acidic) electrolysis; liquid alkaline electrolysis; alkaline membrane electrolysis; membraneless or bipolar membrane electrolysis; decoupled electrodes; and supporting technologies such as electrochemical hydrogen compression, hydrogen storage, and unitized reversible fuel cells. Monday morning brings together invited plenary speakers on key advances in low temperature water electrolysis. Monday afternoon is reserved for a joint plenary session with other symposia on all types of hydrogen generation including high temperature water electrolysis and photoelectrochemical cells. The remainder of the symposium comprises parallel sessions covering research topics including new electrocatalysts, membranes, porous transport layer (PTLs), MEA design, stack engineering, and modeling and diagnostic tools which affect the performance, efficiency, cost, and durability of electrolysis systems when integrated with renewable energy sources. Abstracts are welcome on the following topics: 1)

3) 4)

5) 6)

Electrocatalysts for the HER and OER in acid or alkaline media including non-precious metals and methods to decrease the loading of precious metals (Ir and Pt); approaches to improving their activity and durability; and analytical tools to characterize the electrocatalysts; Membrane and separation technologies, such as methods for high durability membranes, progress on PFSA-free membranes and alkaline membranes, and techniques to separate oxidizer and fuel in membraneless technologies; Electrode and MEA design and optimization that focus on electrode structures, membrane/electrode/PTL interface, advanced electrode, and MEA concepts; Stack engineering and operations that will include component integration, sealing technology, heat management, and approaches for rapid or large-scale MEA and stack manufacturing; Modeling and diagnostics of performance loss and durability pertaining to kinetics, mass transport and Ohmic losses; Advanced concepts and systems for water electrolysis including systems integration approaches to facilitate integration with renewables, gas pressurization, hybrid systems, new uses of hydrogen, and technoeconomic analysis of the environmental impact of hydrogen systems.

Any questions on the symposium should be directed to the session organizers. This symposium’s proceedings are published in ECS Transactions and available at the meeting. Authors accepted for presentation are strongly encouraged to submit their full text manuscript for the issue no later than March 15, 2024. Submit all manuscripts online in either MS Word or PDF format. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Hui Xu, Envision Energy USA, email: hui.xu2@envision-energy.com; Karen E. Swider-Lyons, Plug Power Inc, email: KSwiderLyons@plugpower.com; William Earl Mustain, University of South Carolina, email: MUSTAINW@mailbox. sc.edu; Marcelo Carmo, NEL Hydrogen, email: mcarmo@nelhydrogen. com; Svitlana Pylypenko, Colorado School of Mines, email: spylypen@ mines.edu; Shaun Alia, National Renewable Energy Laboratory, email: shaun.alia@nrel.gov; Peter Strasser, Technische Universität Berlin, email: pstrasser@tu-berlin.de; Sara Cavaliere, Institut Charles Gerhardt de Montpellier, email: Sara.Cavaliere@umontpellier.fr; Shigenori Mitsushima, Institute of Advanced Sciences, Yokohama National University, email: mitsushima-shigenori-hp@ynu.ac.jp; Karel Bouzek, Vysoká škola chemicko-technologická v Praze, email: Karel.Bouzek@ vscht.cz.

I02

Renewable Fuels via Artificial Photosynthesis or Heterocatalysis 10 Energy Technology Division; Physical and Analytical Electrochemistry Division; Sensor Division

This symposium provides an international and interdisciplinary forum to present the latest research on production of fuels (e.g., hydrogen or other gas/liquid hydrocarbon fuels) by solar energy or electrical energy. Topics of interest include, but are not limited to: 1) 1) 1) 1) 1) 1)

Generation of fuels with photocatalysts or photoelectrochemical cells (PECs); Sunlight-driven production of biofuels and bio-hydrogen with enzymes and photoautotrophic microorganisms; Synthesis and characterization of photocatalysts or electrocatalysts; Exploration of new materials for solar energy conversion; Generation of fuels with solar-thermal processes; Simulation and modeling of materials, devices, and systems for solar energy conversion.

This symposium’s proceedings are published in ECS Transactions and available at the meeting. Authors accepted for presentation are strongly encouraged to submit their full text manuscript for the issue no later than March 15, 2024. Submit all manuscripts online in either MS Word or PDF format. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Nianqiang Wu, University of Massachusetts Amherst, email: nianqiangwu@umass.edu; Vaidyanathan Ravi Subramanian, University of Nevada, Reno, email: ravisv@unr. edu; Ayyakkannu Manivannan, Global Pragmatic Materials, email: manigpm1@outlook.com; Pawel Kulesza, Uniwersytet Warszawski, email: pkulesza@chem.uw.edu.pl; Frank E Osterloh, University of California, Davis, email: fosterloh@ucdavis.edu; Bunsho Ohtani, Hokkaido University, email: ohtani@cat.hokudai.ac.jp; Eric Miller, United States Department of Energy, email: Eric.Miller@ee.doe. gov; Gary Phillip Wiederrecht, Center for Nanoscale Materials, Argonne National Laboratory, email: wiederrecht@anl.gov; Tianquen Lian, Emory University, email: tlian@emory.edu; Heli Wang, Phillips 66, email: heli.wang@p66.com.

Materials for Low Temperature Electrochemical

I03 Systems 10

Energy Technology Division; Battery Division; Physical and Analytical Electrochemistry Division

Materials development is critical to the commercialization of electrochemical technologies including batteries, alkaline and proton exchange membrane fuel cells, supercapacitors, and other electrochemical applications/devices. This symposium focuses on both the fundamental and applied aspects of materials for low temperature electrochemical technologies. Topics of interest include, but are not restricted to: 1) 2) 3) 4) 5)

Experimental methods for membrane/ionomer design, synthesis, characterization, and evaluation; Modeling for guiding membrane materials development and for the prediction of membrane material properties; Electrocatalyst design, synthesis, characterization, and performance/durability evaluation for fuel cells, metal-air batteries, etc.; Design, characterization, and evaluation of active materials for batteries and supercapacitors; Electrolytes and separators for batteries.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Minhua Shao, Hong Kong University of Science and Technology, email: kemshao@ust.hk; Gang Wu, University at Buffalo, email: gangwu@buffalo.edu; Enyuan Hu, Brookhaven National Laboratory, email: enhu@bnl.gov.

Electrosynthesis of Fuels 8

I04 High-Temperature Energy, Materials, & Processes

Division; Energy Technology Division; Industrial Electrochemistry and Electrochemical Engineering Division

Sustainable economic growth and high quality of life require an abundant supply of clean and affordable energy. Future energy sources include solar, wind, and nuclear - all of which can produce electricity as the primary form of energy. The conversion of this electrical energy to fuels (e.g., hydrocarbon or hydrogen) using common chemicals such as carbon dioxide and water through electrochemical processes (e.g., electrolysis reactions), provides an opportunity to remove the temporal variation in the energy supply from solar and wind energy. Electrolysis reactions may involve protons, hydroxide, oxide, or other ions. This symposium provides an international forum for the presentation and discussion of the latest developments on electrolysis and related topics. The emphasis of this symposium is on recent advances relevant to the conversion and utilization of CO2 and/or H2O for synthesis of fuels and other chemicals. The application of the same cells as fuel cells is of special interest because reversible cells that may be coupled with renewable or nuclear electric power production in order to increase efficiency through energy storage are of particular importance. Papers are solicited on the topics as follows: 1) 2) 3) 4) 5)

Electrolysis cells including electrolytes, electrodes, seals, and interconnects for the conversion of CO2 and H2O to fuels; Solid oxide fuel cells and protonic ceramic fuel cells; Electrocatalytic phenomena in oxygen electrodes and fuel electrodes; Electrochemical and chemical technologies for CO2 separation; Novel materials or concepts for CO2 conversion and capture.

This symposium is not publishing an issue of ECS Transactions. ECS encourages presenters to submit to the ECS Family of Journals as an alternate publishing opportunity. Learn more at https://www.electrochem. org/publications. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Xiao-Dong Zhou, University of Louisiana at Lafayette, email: xiao-dong.zhou@louisiana.edu; Hui Xu, Envision Energy USA, email: hui.xu2@envision-energy.com; Huyen Dinh, National Renewable Energy Laboratory, email: Huyen.Dinh@ nrel.gov; Gessie Brisard, Université de Sherbrooke, email: Gessie. Brisard@USherbrooke.ca; Dong Ding, Idaho National Laboratory, email: dong.ding@inl.gov; Jianhua Tong, Clemson University, email: jianhut@clemson.edu; Damilola A. Daramola, Ohio University, email: daramola@ohio.edu.

Mechano-Electro-Chemical Coupling in Energy

I05 Related Materials and Devices 5

High-Temperature Energy, Materials, & Processes Division; Battery Division

Significant coupling often exists between the electrical, chemical, and mechanical responses of the materials enabling batteries, fuel cells, electrolyzers, chemical separators, chemical actuators, and other highperformance energy conversion/storage devices. In these systems, electrochemical reactions affect stress evolution, deformation, and fracture. Similarly, stress evolution, deformation, and fracture can also affect electrochemical properties, device performance, and durability. This symposium provides a forum for the presentation of original research concerned with the interplay between mechanics and electrochemistry. Topics of interest include, but are not limited to, experimental and/or modeling studies of: Call for Papers • 245th ECS Meeting • SAN FRANCISCO, CA • May 26-30, 2024 • www.electrochem.org

• The effect of stress and strain on: the surface and bulk atomic structure of electrochemically active materials; defect thermodynamics (point defect concentrations, chemical expansion coefficients, etc.) of electrochemically active materials; diffusion kinetics (diffusion coefficients, surface exchange coefficients, etc.); catalytic activity; electronic structure of electrochemically active materials; reaction pathways; phase transformations (phase-boundary shifting, ferroelastic domain switching, straininduced self-assembly, etc.) in electrochemically active materials; microstructural evolution of electrochemically active materials; and performance and durability of electrochemically active materials and devices. • Stress, strain, and/or fracture resulting from electrochemical insertion; intercalation; phase transformations; electrode reactions; and other electrochemical processes and/or device operation; • New approaches to understand, model, and/or control mechanochemical coupling and/or degradation in electrochemical systems; • Novel in situ and ex situ characterization tools; • Electrochemical actuation based on Faradaic and non-Faradaic interactions; • Mesoscale perspective on mechano-electrochemical interplay. Confirmed invited speakers include William C. Chueh (Stanford), Yue Qi (Brown University), Bilge Yildiz (Massachusetts Institute of Technology), and Igor Lubomirsky (Weizmann Institute of Science). Additional invited speakers will also present. This symposium is not publishing an issue of ECS Transactions. ECS encourages presenters to submit to the ECS Family of Journals as an alternate publishing opportunity. Learn more at https://www.electrochem. org/publications. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Jason D. Nicholas, Michigan State University, email: jdn@msu.edu; Nicola Perry, Kyushu University, email: nhperry@illinois.edu; Chengcheng Fang, Michigan State University, email: cfang@msu.edu.

Energy Conversion Based on N, P, and Other

I06 Nutrients 3

Energy Technology Division; Industrial Electrochemistry and Electrochemical Engineering Division; Physical and Analytical Electrochemistry Division

Recovery, conversion, and reuse of energy-dense/expensive molecules like N and P compounds have attracted increasing attention in the electrochemistry community as we increasingly need green energy carriers, and to address global nutrients and water/energy sustainability issues. Significant R&D effort is ongoing in the field to develop efficient and safe processes for fuel and nutrient recovery. There is also a need for ongoing conversations in the scientific community around experimental techniques, controls, and methodology to ensure robust and accurate results in this emerging area. As such, a statement regarding controls is required in the abstract (e.g., argon controls, isotope labeling, and assessing NOX contaminants for electrochemical reduction of nitrogen to ammonia). In this symposium, the following topics are of interest: 1) 2) 3) 4)

Using electrical energy to convert nitrogen-containing compounds into useful products; Using nitrogen-containing compounds as fuel which may also produce other useful byproducts; Electrochemically-driven nutrient recycling or recovery; Experimental techniques, controls, and methodology to ensure rigorous evaluation of performance.

of Technology, email: marta.hatzell@me.gatech.edu; William Abraham Tarpeh, Stanford University, email: wtarpeh@stanford.edu; Gang Wu, University at Buffalo, email: gangwu@buffalo.edu; Julie Renner, Case Western Reserve University, email: julie.renner@case.edu; Pawel Kulesza, Uniwersytet Warszawski, email: pkulesza@chem.uw.edu.pl.

K—Organic and Bioelectrochemistry Advances in Organic and Biological K01 Electrochemistry: In Memory of Diane Smith Organic and Biological Electrochemistry Division We invite contributions from all areas of organic and biological electrochemistry, including synthetic, biological, and mechanistic organic electrochemical research, as well as papers dealing with catalytic aspects of electrosynthesis. This symposium is not publishing an issue of ECS Transactions. ECS encourages presenters to submit to the ECS Family of Journals as an alternate publishing opportunity. Learn more at https://www.electrochem. org/publications. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Kevin Moeller, Washington University in St. Louis, email: moeller@wustl.edu; Dan Little, University of California, Santa Barbara, email: little@chem.ucsb.edu; Shelley D. Minteer, Center for Synthetic Organic Electrochemistry, University of Utah, email: minteer@chem.utah.edu; Mekki Bayachou, Cleveland State University, email: m.bayachou@csuohio.edu.

Bioelectrochemistry – From Ions to Proteins to

K02 Living Organisms

Organic and Biological Electrochemistry Division; Physical and Analytical Electrochemistry Division

Contributions are solicited in all areas of biological electrochemistry focusing on ions, proteins, and living organisms. This includes electrochemical research on biological mechanisms and cellular function, research on models of biological systems, electroanalytical approaches towards disease detection and the understanding of disease progression, as well as research on living biological entities, such as bacteria and mammalian cells. This symposium is not publishing an issue of ECS Transactions. ECS encourages presenters to submit to the ECS Family of Journals as an alternate publishing opportunity. Learn more at https://www.electrochem. org/publications. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Sabine Kuss, University of Manitoba, email: sabine.kuss@umanitoba.ca; Lior Sepunaru, University of California, Santa Barbara, email: sepunaru@ucsb.edu; Sanela Martic, Trent University, email: sanelamartic@trentu.ca; Sadagopan Krishnan, Oklahoma State University, email: gopan.krishnan@okstate.edu; Alice H. Suroviec, Berry College, email: asuroviec@berry.edu.

Organic and Biological 3D Electrode Architectures K03 Organic and Biological Electrochemistry Division; Energy Technology Division; Physical and Analytical Electrochemistry Division Contributions are solicited in all areas of electrochemical research involving organic and biological 3D electrode architectures. This symposium is not publishing an issue of ECS Transactions. ECS encourages presenters to submit to the ECS Family of Journals as an alternate publishing opportunity. Learn more at https://www.electrochem. org/publications. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Sadagopan Krishnan, Oklahoma State University, email: gopan.krishnan@okstate.edu; Plamen B. Atanassov, University of California, Irvine, email: plamen.atanassov@ uci.edu; Alice H. Suroviec, Berry College, email: asuroviec@berry.edu. 13

L—Physical and Analytical Electrochemistry, Electrocatalysis, and Photoelectrochemistry

L01

Physical and Analytical Electrochemistry, Electrocatalysis, and Photoelectrochemistry General Session Physical and Analytical Electrochemistry Division

In the general session, topic area papers concerning any aspect of physical electrochemistry, analytical electrochemistry, electrocatalysis, and photoelectrochemistry not covered by topic areas of other specialized symposia at this meeting, are welcome. Contributed papers are programmed in some related order, depending on the titles and contents of the submitted abstracts. This symposium is not publishing an issue of ECS Transactions. ECS encourages presenters to submit to the ECS Family of Journals as an alternate publishing opportunity. Learn more at https://www.electrochem. org/publications. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Anne Co, Ohio State University, email: co@chemistry.ohio-state.edu; Stephen Paddison, University of Tennessee, Knoxville, email: spaddiso@utk.edu.

Electrochemical Studies by Synchrotron

L03 Techniques 3

Physical and Analytical Electrochemistry Division; Battery Division; Electrodeposition Division; Energy Technology Division

Synchrotron methods help advance understanding of electrochemical systems developed to solve energy, environmental, and biological needs of society. This symposium provides a forum targeting advancements and applications of various methods for ex situ, in situ, and operando synchrotron characterization of electrochemical systems. Of special interest are papers focused on synchrotron-based techniques for characterization of electroactive materials, electrode-electrolyte interfaces, and electrochemical devices. This symposium is not publishing an issue of ECS Transactions. ECS encourages presenters to submit to the ECS Family of Journals as an alternate publishing opportunity. Learn more at https://www.electrochem. org/publications. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Svitlana Pylypenko, Colorado School of Mines, email: spylypen@mines.edu; Anne Co, Ohio State University, email: co@chemistry.ohio-state.edu; Iryna Zenyuk, University of California, Irvine, email: iryna.zenyuk@uci.edu; Kelsey A Stoerzinger, Oregon State University, email: kelsey.stoerzinger@ oregonstate.edu.

Bioelectroanalysis and Bioelectrocatalysis 3

Computational Electrochemistry 9 L02 Physical and Analytical Electrochemistry Division; Energy Technology Division

L04 Physical and Analytical Electrochemistry Division;

The goal of this symposium is to bring together scientists working in diverse areas of computational electrochemistry in order to stimulate their awareness of common problems and group interests, facilitate exchange of ideas and opinions, and enable global, unifying views on this emerging interdisciplinary branch of electrochemistry and computational science. The symposium is devoted to ALL ASPECTS of computer and computational method uses in electrochemistry, including (but not necessarily limited to):

Papers are solicited on fundamental and applied aspects of bioelectroanalysis and bioelectrocatalysis including the design, fabrication, and evaluation of biosensors, biofuel cells, and bioprobes, as well as electrochemical lab-on-a-chip devices for bioanalysis and biomedical applications. All papers in electroanalytical techniques for biological molecules are invited, as well as papers focused on fundamental bioelectrocatalysis for sensing and analysis applications. Direct and mediated bioelectrocatalysis for energy conversion devices are of particular interest. Microbial, organelle, protein, and nucleic acid biocatalysts are of interest. This symposium is not publishing an issue of ECS Transactions. ECS encourages presenters to submit to the ECS Family of Journals as an alternate publishing opportunity. Learn more at https://www.electrochem. org/publications. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Shelley D. Minteer, Center for Synthetic Organic Electrochemistry, University of Utah, email: minteer@chem.utah.edu; Scott A. Calabrese Barton, Michigan State University, email: scb@msu.edu.

• Quantum chemical and molecular simulations in electrochemistry (ab initio, Monte Carlo, molecular dynamics, etc.); • Digital simulations of electrochemical transport and kinetic/ electroanalytical problems (continuum modeling, including PDE/ ODE/DAE solving); • Multi-physics and multi-scale simulations in electrochemistry; • Computer-aided data analysis in electrochemical kinetics and electroanalysis; • Engineering simulations and other computations relevant to electrochemical engineering; • Software, problem-solving environments, expert systems, databases, web-based programs, grid applications, etc., for electrochemistry. This symposium is not publishing an issue of ECS Transactions. ECS encourages presenters to submit to the ECS Family of Journals as an alternate publishing opportunity. Learn more at https://www.electrochem. org/publications. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Stephen Paddison, University of Tennessee, Knoxville, email: spaddiso@utk.edu; Yue Qi, Brown University, email: YueQi@brown.edu; Scott A. Calabrese Barton, Michigan State University, email: scb@msu.edu; Steven C. DeCaluwe, Colorado School of Mines, email: decaluwe@mines.edu.

Energy Technology Division; Organic and Biological Electrochemistry Division

Electrochemistry at the Nanoscale 2

L05 Physical and Analytical Electrochemistry Division;

Electrodeposition Division; Energy Technology Division

This symposium covers all aspects of electrochemistry at the nanoscale including nanoparticles and nano-structured materials; hierarchically structured materials which include a distinct nanoscale component; electrochemical processes in nano-confined spaces including electrical double layer in confined spaces; functional electrochemical materials at the nanoscale; and corrosion and degradation occurring at the nanoscale or on nanomaterials. The symposium invites papers on new developments in the synthesis, electrochemical evaluation, reactivity, and corrosion of nanomaterials, as well as experimental approaches for studying the phenomena occurring at electrified interfaces at the nanoscale or in nano-confined electrolytes. The symposium also invites papers in which nanostructured materials and interfaces are being integrated into electrochemical devices that benefit from or display specific properties that arise from the nanoscale features. Call for Papers • 245th ECS Meeting • SAN FRANCISCO, CA • May 26-30, 2024 • www.electrochem.org

Analytical Electrochemistry for Electrosynthesis

L06 Physical and Analytical Electrochemistry Division; Energy Technology Division

Electrosynthesis is on the rise, with new prospects in scope and scale. The realization that electricity potentially coming from renewable energy technologies can be used not only to replace some traditional synthetic methods but to optimize processes, increase safety, decrease environmental impact, and offer alternative reaction mechanisms, presents a paradigm shift in chemical production. This includes vast classes of substances, from commodity to fine chemicals, electrosynthesis and modification of polymers, and schemes coupling co-electrolysis with chemical upgrading. New classes of reactions, device configurations, and schemes for potential and current control bring also new challenges for exploring product distributions online and in real time, understanding homogeneous and heterogeneous reaction intermediates, determining the rates of chemical and electrochemical steps, and exploring the role of solvents, reaction conditions, and device components on the outcome of (electro)chemical reactions. This symposium seeks oral and poster presentations on electroanalytical approaches to address these pressing challenges. We seek to bridge a dialogue between synthetic, analytical, and electrochemical communities that helps us inform electrosynthesis to drive this field forward into its maximum impact. Topics of interest include, but are not limited to: 1)

2) 3) 4) 5)

6) 7) 8)

In situ/operando approaches using hyphenated methods to electrochemistry (e.g., LC/GC, MS, IR, NMR, ESR, etc.) for characterizing chemical intermediates and products in electrolyte solutions undergoing electrolysis; New methods and devices for measuring rate constants of chemical and electrochemical reactions involved in electrosynthesis; Electrochemical techniques based on potential or current control to interrogate or influence the reactivity or product distribution in (electro)chemical reactions; The investigation of new electrode or interface phenomena affecting electrosynthesis; Interfacial methods to probe electrochemical reaction mechanisms and adsorbed intermediates at electrodes and other boundaries (e.g., emulsions, liquid/liquid interfaces, three phase boundaries); Mechanistic considerations involving alternative electrolytes and methods to understand factors limiting the stability or viability of electrolytes during electrosynthesis; Electrochemical simulations of diverse mechanisms involved in homogeneous and heterogeneous electrode reactions of interest to electrosynthesis; Experimental or theoretical considerations of electrosynthesis on flow and batch devices and those involved in co-electrolysis or any other modality of preparative electrochemistry.

This symposium is not publishing an issue of ECS Transactions. ECS encourages presenters to submit to the ECS Family of Journals as an alternate publishing opportunity. Learn more at https://www.electrochem. org/publications. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Joaquin Rodriguez Lopez, University of Illinois at Urbana-Champaign, email: joaquinr@illinois. edu; Anne Co, Ohio State University, email: co@chemistry.ohio-state. edu; Shelley D. Minteer, Center for Synthetic Organic Electrochemistry, University of Utah, email: minteer@chem.utah.edu; Iryna Zenyuk, University of California, Irvine, email: iryna.zenyuk@uci.edu. Call for Papers • 245th ECS Meeting • SAN FRANCISCO, CA • May 26-30, 2024 • www.electrochem.org

Electrochemistry and Switchable Qubits

L07 Physical and Analytical Electrochemistry Division Practicable construction of quantum computers is limited by the availability of robust, tangible qubits. Several groups have proposed that paramagnetic molecules could be used as qubits. Most research has been devoted to organic radicals, centers within polyoxometallates and other metal cage complexes, or simple coordination complexes. Molecular qubits might not have phase memory times as long as those of other quantum systems, and hence performing multiple operations on molecular electron spin qubits could be challenging. There have been considerable advances in improving phase memory times through intelligent chemical design since the initial measurements that established the feasibility of using molecules in this context. Second, molecules are not as compatible with the integrated circuits used in information processing as nanostructures created by lithography. Early proposals for spin qubits in semiconductors were envisaged using large exchange interactions to couple neighboring electron and/or nuclear spin qubits. The exchange interaction generates a natural twoqubit gate by conditionally swapping the electron spin states if they are anti-parallel. Experimentally, this requires tuning the exchange energy up to gigahertz frequencies over a relatively small range in voltage detuning, which makes this challenging. One such example is spin qubits in gatedefined quantum dots (QDs) which offer great potential for quantum computation due to their small size and relatively long coherence times. Single-qubit gate fidelities over 99.9 percent and two-qubit gate fidelities over 99 percent have already been demonstrated. Two approaches to realizing a two-qubit exchange gate using gate-defined quantum dots have been pursued: the controlled phase (CZ) and the controlled rotation (CROT) operations. When combined with single-qubit rotations, any of these three entangling gates are sufficient to perform universal quantum computation. Controlling the electrochemical potential of these quantum dots is important in controlling the device. The electrochemical potentials of the reservoirs are aligned with the electrochemical potentials of the two quantum dots, such that electrons can sequentially tunnel through the two dots. Increasing the voltage applied to lower the tunnel barrier between the dots would eventually reach the point where one large dot is formed as the gradual transition from triple points to single, parallel, and evenly spaced Coulomb peaks. This shows the tunability of the interdot tunnel coupling in this double dot, which is advantageous for two-qubit control in such a system. These were examples using molecular or quantum dots, but other systems may be envisioned which utilize electrochemistry as a means to build, address, and read practical qubits. Therefore, papers considering the issues above, the electrochemical properties of these molecular systems, and the aspects of electrochemical control are welcome. This symposium is not publishing an issue of ECS Transactions. ECS encourages presenters to submit to the ECS Family of Journals as an alternate publishing opportunity. Learn more at https://www.electrochem. org/publications. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Hugh C. De Long, U.S. Army Research Office, email: hugh.c.delong.civ@army.mil; Johna Leddy, University of Iowa, email: johna-leddy@uiowa.edu.

M—Sensors Recent Advances in Sensors Systems 5

M01 Sensor Division

This symposium provides a forum for the broad discussion of research and development in the field of physical and chemical sensors (gas, liquid, and other types), including molecular recognition surfaces, transduction methods and integrated and microsensor systems. Topics of interest include, but are not limited to:

Development of new selective molecular recognition surface and materials; 2) Sensor and analytical systems for safety and security; 3) Novel methods for signal amplification and detection; 4) Sensor arrays for the simultaneous detection of multiple analytes; 5) Micro total analysis systems (µ-TAS); 6) Physics and chemistry of sensors and sensor materials, synthesis/ fabrication, and characterization of novel compositions; 7) Novel sensor concepts, design, modeling, and verification; 8) Sensor arrays, and electronic noses and tongues; 9) Physical, chemical, and biological/biomedical sensors and actuators, such as gas, humidity, ion, and molecular sensors, their system integration, and actuating functions; 10) Optical sensors and fiber optic sensors; 11) Wireless sensors; 12) Emerging technologies and applications including nanosensors and sensors leveraging nanotechnology; 13) Harsh environment sensors. All transduction methods are of interest for this symposium (e.g., electrochemical, resistive, capacitive, optical, acoustic, gravimetric, and thermal). The goal of this symposium is to present the broadest possible coverage of modern physical and chemical sensing progress and to highlight the present state of the art relative to basic and applied areas. This symposium’s proceedings are published in ECS Transactions and available at the meeting. Authors accepted for presentation are strongly encouraged to submit their full text manuscript for the issue no later than March 15, 2024. Submit all manuscripts online in either MS Word or PDF format. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Praveen Kumar Sekhar, Washington State University Vancouver, email: praveen.sekhar@ wsu.edu; Jessica Koehne, NASA Ames Research Center, email: jessica.e.koehne@nasa.gov; Aida Ebrahimi, Pennsylvania State University, email: sue66@psu.edu; Dongmei Dong, Florida International University, email: ddong@fiu.edu; Thiagarajan Soundappan, Navajo Technical University, email: tsoundappan@navajotech.edu; Larry A. Nagahara, Johns Hopkins University, email: larry.nagahara@jhu.edu.

Printed and Wearable Sensors and Systems

M02 Sensor Division; Dielectric Science and Technology Division; Nanocarbons Division

This symposium presents the latest advances in the fundamental science and technological developments of printed and wearable sensors and systems including fabrication processes, packaging, and their application towards chemical sensing, physical sensing, biosensing, miniature chemical analysis systems, and microfluidic devices. Particular emphasis should be placed on processes and potential applications of these devices. The following is a partial list of topics solicited: 1) 2) 3)

Fabrication and processing of printed and wearable sensors; Nanomaterials for printed and wearable sensors; Wearable sensors for healthcare.

This symposium’s proceedings are published in ECS Transactions and available at the meeting. Authors accepted for presentation are strongly encouraged to submit their full text manuscript for the issue no later than March 15, 2024. Submit all manuscripts online in either MS Word or PDF format. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Jessica Koehne, NASA Ames Research Center, email: jessica.e.koehne@nasa.gov; Milton Cordeiro, Universities Space Research Association, email: mcordeiro@ usra.edu; Lok-kun Tsui, University of New Mexico, email: lktsui@unm. edu; Leyla Soleymani, McMaster University, email: soleyml@mcmaster. ca; Milad Navaei, Georgia Institute of Technology, email: milad. navaei@gtri.gatech.edu; Aida Ebrahimi, Pennsylvania State University, email: Sue66@psu.edu; Yaw Obeng, National Institute of Standards and Technology, email: yaw.obeng@nist.gov; Uros Cvelbar, Jožef Stefan Institute, email: uros.cvelbar@ijs.si. 16

Sensors for Energy Production, Conversion and

M03 Storage

Sensor Division; High-Temperature Energy, Materials, & Processes Division

Sensors are being used increasingly in various energy production, conversion, and storage systems in order to improve their efficiency and reliability, and to monitor their state of health. Heightened concerns regarding the environmental impact of fossil fuel use have resulted in increased investment in clean energy conversion and storage technologies including batteries, fuel cells and electrolyzers. Interest in hydrogen as a viable carbon-free energy carrier has increased, and several countries are developing plans for vastly expanding their hydrogen infrastructure. The widespread deployment of these clean energy conversion and storage technologies can benefit greatly by the incorporation of sensors that provide information on the state of health of these devices. Moreover, the incorporation of sensors and feedback control within energy conversion and storage systems can improve their efficiency and safety. This symposium provides a forum for the discussion of the latest advancements in sensor research and development as it relates to clean energy systems. Sensor systems of interest include those used in batteries, fuel cells, water electrolyzers, CO2 conversion devices, and ammonia production. Examples include hydrogen safety sensors, sensors that monitor the state of health of batteries, and sensors that can improve the efficiency/durability of fuel cell and water electrolysis systems. Researchers from industries, universities, and national laboratories who work in the field of sensors are invited to participate. Papers on all sensing mechanisms (e.g., electrochemical, resistive/semiconductive, acoustic, optical, gravimetric, and thermal) that address novel materials, synthesis, device configuration, evaluation techniques and system design for these applications are welcome. This symposium’s proceedings are published in ECS Transactions and available at the meeting. Authors accepted for presentation are strongly encouraged to submit their full text manuscript for the issue no later than March 15, 2024. Submit all manuscripts online in either MS Word or PDF format. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Dongmei Dong, Florida International University, email: ddong@fiu.edu; Rangachary Mukundan, Lawrence Berkeley National Laboratory, email: rmukundan@lbl.gov; Gary W Hunter, NASA Glenn Research Center, email: gary.w.hunter@nasa.gov; Praveen Kumar Sekhar, Washington State University Vancouver, email: Praveen.sekhar@wsu. edu; A. Robert Hillman, University of Leicester, email: arh7@le.ac. uk; Kannan Ramaiyan, University of New Mexico, email: kramaiyan@ unm.edu; Milad Navaei, Georgia Institute of Technology, email: milad. navaei@gtri.gatech.edu.

Z—General General Student Poster Session

Z01 All Divisions

This poster session provides a forum for graduate and undergraduate students to present research results of general interest to ECS. The session’s purpose is to foster and promote work in both electrochemical and solid state science and technology, and to stimulate active student interest and participation in ECS. Posters accepted for presentation in this session are eligible for General Student Poster Awards. To be considered for awards, student poster authors must (1) upload a digital poster and (2) be present during the in-person judging session. The top three student authors receive cash prizes: $1500 for first place, $1000 for second place, and $500 for third place. This symposium is not publishing an issue of ECS Transactions. ECS encourages presenters to submit to the ECS Family of Journals as an alternate publishing opportunity. Learn more at https://www.electrochem. org/publications. Call for Papers • 245th ECS Meeting • SAN FRANCISCO, CA • May 26-30, 2024 • www.electrochem.org

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Alice H. Suroviec, Berry College, email: asuroviec@berry.ed.

2) 3)

Education in Electrochemistry 4

Z02 Physical and Analytical Electrochemistry Division;

Battery Division; Corrosion Division; Energy Technology Division; Industrial Electrochemistry and Electrochemical Engineering Division; Sensor Division

While graduate students and postdoctoral fellows accomplish the lion’s share of research, there are a number of undergraduate only institutions that are making significant contributions to electrochemistry. These are wonderful opportunities for the students, but certainly present additional challenges to the primary investigator not seen at the more research-focused institutions. This symposium calls not just for research methods and papers from an undergraduate dominated setting, but also teaching and curriculum ideas for incorporating electrochemistry into undergraduate programs. We look for this symposium to shed some light on what has been accomplished and some thoughts on what may be possible. Papers on basic and applied research and teaching in all areas of electrochemistry, electrochemical systems, and physics related to solid state and electrochemical science and technology are solicited. Topics include: 1) 2) 3) 4) 5) 6) 7) 8) 9)

Power and energy applications; Corrosion phenomena; Electrochemical synthesis and engineering; Sensors and biosensors; Luminescent processes; Materials and biomaterials; Electron transport and electrochemistry; Biochemical and biomedical applications; Novel approaches to teaching electrochemistry.

Keynote lectures are presented by invited speakers. A poster session is planned. Student participation is highly encouraged. It is anticipated that some funds will be available to support students and young scientists. This symposium is not publishing an issue of ECS Transactions. ECS encourages presenters to submit to the ECS Family of Journals as an alternate publishing opportunity. Learn more at https://www.electrochem. org/publications. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Alice H. Suroviec, Berry College, email: asuroviec@berry.edu; Plamen B. Atanassov, University of California, Irvine, email: plamen.atanassov@uci.edu; Tom Fuller, Georgia Institute of Technology, email: tom.fuller@chbe.gatech. edu; Walter van Schalkwijk, Battery Sciences, LLC, email: wvs@ batterysciences.com; Christopher Arges, Pennsylvania State University, email: cga5126@psu.edu; Praveen Kumar Sekhar, Washington State University Vancouver, email: praveen.sekhar@wsu.edu.

Electrochemical Recovery, Recycling, and

Z03 Sustainability of Critical and Value Added

Materials 2 Industrial Electrochemistry and Electrochemical Engineering Division; Battery Division; Electrodeposition Division; Energy Technology Division; High-Temperature Energy, Materials, & Processes Division, Interdisciplinary Science and Technology Subcommittee

Electrochemical systems, in addition to enabling sustainability through energy generation and storage, can play a central role in enabling the cradle-to-cradle strategy in materials. This strategy encompasses three aspects: 1)

Sustainability-driven right-sized design using electrochemical processing of materials through electrochemical methods such as electrodeposition;

Call for Papers • 245th ECS Meeting • SAN FRANCISCO, CA • May 26-30, 2024 • www.electrochem.org

Electrochemical means of recovering valuable materials after products reach the end of life; Design and development of recycling methods for materials used in electrochemical devices such as batteries, fuel cells, electrochemical reactors, etc.

Papers are invited in the areas of • Low or zero carbon ways of synthesizing the right structures and smart structures through electrodeposition and electrochemical machining; • Research, design, and development of electrochemical reactors to aid in the recovery of rare earth elements, photovoltaic components, battery materials, electronic devices and components, materials from electroplating operations, etc.; • Design and build for sustainability aspects of batteries, fuel cells, and other electrochemical devices including, but not limited to, life cycle assessments, mathematical modeling, and simulation of recycling, environmentally friendly solvent processing for recycling, etc. This symposium is not publishing an issue of ECS Transactions. ECS encourages presenters to submit to the ECS Family of Journals as an alternate publishing opportunity. Learn more at https://www.electrochem. org/publications. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Chockkalingam Karuppaiah, Vetri Labs, email: chock.karuppaiah@vetrilabs.com; Roseanne Warren, University of Utah, email: roseanne.warren@utah.edu; Natasa Vasiljevic, University of Bristol, email: N.Vasiljevic@bristol.ac.uk; Zheng Chen, University of California, San Diego, email: zhengchen@eng.ucsd. edu; Luca Magagnin, Politecnico di Milano, email: luca.magagnin@ polimi.it; Xiao Su, University of Illinois at Urbana-Champaign, email: x2su@illinois.edu; Santosh Vijapur, Faraday Technology, Inc, email: santoshvijapur@faradaytechnology.com; Shiqiang Zou, Auburn University, email: shiqiang@auburn.edu; Luis A. Diaz Aldana, Idaho National Laboratory, email: luis.diazaldana@inl.gov; Shuang Ma Andersen, Syddansk Universitet, email: mashu@igt.sdu.dk; Hojong Kim, Pennsylvania State University, email: huk29@psu.edu; Walter van Schalkwijk, University of Washington, email: walter.vanschalkwijk@ gmail.com.

Electrochemistry for Chemical Manufacturing 2

Z04 Industrial Electrochemistry and Electrochemical

Engineering Division; Battery Division; Corrosion Division; Electrodeposition Division; Energy Technology Division; Organic and Biological Electrochemistry Division, Interdisciplinary Science and Technology Subcommittee

This symposium explores advances in fundamental and applied electrochemistry and electrochemical systems to enable efficient, economical, and sustainable chemical manufacturing. With renewable electricity increasing its penetration into the grid, opportunities to use electrochemistry in chemical manufacturing economically and sustainably are ever growing. By utilizing electrochemical methods, processes can be decarbonized when using renewable electricity, wastes and hazardous intermediates can be reduced or eliminated, alternative feedstocks can be used, and modular chemical production units can be implemented. This symposium covers topics including: 1) 2) 3) 4) 5) 6)

Electrolysis of organics such as those used for manufacturing of commodity chemicals, fine chemicals, and pharmaceuticals; Water electrolysis for hydrogen and oxygen utilization in chemical manufacturing; Inorganic electrolysis including, but not limited to, chloro-alkali and aluminum electrowinning; Electrochemical separations for chemical manufacturing; Electrolysis for recycling/upcycling; Materials degradation issues impacting chemical manufacturing processes and equipment. 17

Traditional petrochemical and mineral feedstocks are considered in addition to emerging feedstocks such as biomass, CO2, nitrate, and waste streams. Contributions may address areas including electrocatalyst, electrolyte, and membrane development; electrochemical reaction engineering; reactor design; separation unit design; integration of electrochemical units into chemical production processes; process intensification; corrosion/degradation; and techno-economic/life cycle analyses. Experimental, computational, modeling, and simulation presentations, as well as process development efforts, are solicited. Invited and submitted presentations from industry, national labs, and academia are included. This symposium is not publishing an issue of ECS Transactions. ECS encourages presenters to submit to the ECS Family of Journals as an alternate publishing opportunity. Learn more at https://www.electrochem. org/publications. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Elizabeth Biddinger, City College of New York, email: ebiddinger@ccny.cuny.edu; Chockkalingam Karuppaiah, Vetri Labs, email: chock.karuppaiah@vetrilabs. com; Wenzhen Li, Iowa State University, email: wzli@iastate.edu; Rene Boettcher, Technische Universität Ilmenau, email: Rene.Boettcher@ tu-ilmenau.de; Paul J. A. Kenis, University of Illinois at UrbanaChampaign, email: kenis@illinois.edu; Scott A. Calabrese Barton, Michigan State University, email: scb@msu.edu; Martin Leimbach, Technische Universität Ilmenau, email: martin.leimbach@tu-ilmenau.de.

Materials, Devices, and Systems for Neuromorphic

Z05 Computing and Artificial Intelligence Hardware

Dielectric Science and Technology Division; Electronics and Photonics Division; High-Temperature Energy, Materials, & Processes Division; Nanocarbons Division, Interdisciplinary Science and Technology Subcommittee

With the efforts to mimic biological neural systems and demonstrate brain-like energy efficiency in silicon-based computing systems novel materials processing, devices and circuits are evolving. This symposium addresses the devices for the hardware requirements using nanoscale solid state and electrochemical materials that enable neuromorphic computing and next-generation AI technologies. This includes in-memory computing and implementation of deep neural network circuits. In some instances, materials and device co-design, and device and circuit co-design, are required through extensive simulation and processing for system implementation. Issues like energy-efficiency performance enhancement are required to emulate the brain’s connectivity in hardware. The switching devices that replicate the electronic synapse need to reduce the device-todevice or in-device stochasticity.

The following are indicative topical areas to be covered by the symposium: 1)

3) 4)

Neuromorphic computing and AI hardware related materials and devices: New devices, metals, and different switching layer materials are being considered for AI and neuromorphic computing. For example, resistive RAM, ferroelectric RAM, STT-MRAM ,and phase-change memory (PCM) are taking the lead to reduce power requirements. Materials optimization and development for neuromorphic purposes, such as CMOScompatible ferroelectrics, multiferroics, etc. Materials and device co-design for AI: DFT and other simulation approaches to build devices with optimal performance with energy efficiency. This can involve transition metal oxides, and different layered materials. Device and circuit co-design: Fabrication of different resistive switching devices, circuits, and arrays for different applications. Device optimization for circuit design requirements. Impact of variability: Analyzing the impact of variability on the performance of crossbar arrays of resistive switching devices for different applications. Account for thermal effects on the performance (thermal management). Optimization of switching layer. Young scientists: The symposium’s Young Investigators Session aims to provide a unique forum for senior PhD students and early career researchers to present papers related to AI devices and materials. Of interest are new materials and designs, theoretical and experimental aspects of inorganic and organic dielectric materials, growth processes, bulk and interfacial properties, metal-dielectric interface, electric and ionic transport, porous dielectrics, and thin and ultra-thin films.

This symposium’s proceedings are published in ECS Transactions and available at the meeting. Authors accepted for presentation are strongly encouraged to submit their full text manuscript for the issue no later than March 15, 2024. Submit all manuscripts online in either MS Word or PDF format. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Durgamadhab Misra, New Jersey Institute of Technology, email: dmisra@njit.edu; Kuniyuki Kakushima, Tokyo Institute of Technology, email: kakushima.k.aa@m. titech.ac.jp; Revathy Padmanabhan, Indian Institute of Technology Palakkad, email: revathyp@iitpkd.ac.in; Vidhya Chakrapani, Rensselaer Polytechnic Institute, email: chakrv@rpi.edu; Jeff L. Blackburn, National Renewable Energy Laboratory, email: Jeffrey.Blackburn@nrel. gov; Gitanjali Kolhatkar, McMaster University, email: kolhatkg@ mcmaster.ca; Bilge Yildiz, Massachusetts Institute of Technology, email: byildiz@mit.edu.

Call for Papers • 245th ECS Meeting • SAN FRANCISCO, CA • May 26-30, 2024 • www.electrochem.org

SYMPOSIUM SPONSORSHIP & SPEAKER SUPPORT In addition to general meeting and custom sponsorship options, ECS offers specific symposium sponsorship. You can directly support the scientists who make the meeting possible by sponsoring a symposium. Sponsorships offset travel expenses, registration fees, complimentary proceedings, and/or host receptions for invited speakers, researchers, and students. PLATINUM $22,500*

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CONTRIBUTING $2,250*

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Call for Papers • 245th ECS Meeting • SAN FRANCISCO, CA • May 26-30, 2024 • www.electrochem.org