CALL FOR PAPERS-244th ECS Meeting Gothenburg by The Electrochemical Society

www.electrochem.org/244 Abstract Submission Extended Deadline: APRIL 21, 2023 244TH ECS MEETING GOTHENBURG SWEDEN October 8-12, 2023 Swedish Exhibition & Congress Centre CALL FOR PAPERS

GENERAL INFORMATION

The 244th ECS Meeting takes place in Gothenburg, Sweden, from October 8-12, 2023, at the Swedish Exhibition and Congress Centre. 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 including oral presentations, poster sessions, panel discussions, tutorial sessions, short courses, professional development workshops, a career fair, 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 244th ECS Meeting, submit an original meeting abstract for consideration, via the ECS website https://ecs. confex.com/ecs/244/cfp.cgi, no later than April 7, 2023. Faxed, e-mailed, 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 June 2023, 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 the dedicated laptops located in each technical session room. Speakers requiring additional equipment must make written requests 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. It must fit within the dimensions of A0 print format (841 x 1189 mm/33.1 x 46.8 inches). It should be laid out vertically (portrait layout). Abstract number and day of presentation as published in the online program should be printed on your poster.

Digital presenters are required to submit a video of their presentation, and/ or a copy of the slide deck or poster that will be made available for on-demand viewing only within the online program through November 4, 2023. 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, and ECS Sensors Plus. Although there is no hard submission deadline, 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 a full-text manuscript based on their presentation. 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 in a short, intensive time period. 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/shortcourses

TECHNICAL EXHIBIT

The 244th ECS Meeting is the right place to exhibit. The Society provides a powerful platform for meeting major new customers while enhancing relationships with current customers from around the world. Coffee and networking breaks along with evening poster sessions generate traffic in the exhibit hall.

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 sponsorships to suit your marketing needs. Contact sponsorship@electrochem.org for 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 September 11, 2023.

HOTEL RESERVATIONS

The 244th ECS Meeting takes place at the Swedish Exhibition and Congress Centre. 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 it sells out or September 11, 2023.

LETTER OF INVITATION

Letters of Invitation are sent in June 2023 via email to the corresponding 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 offer travel grants to assist students, postdoctoral researchers, and young professionals attend ECS biannual meetings. Applications are available beginning April 7, 2023, at www.electrochem.org/ travel-grants. The submission deadline is June 26, 2023. For general travel grant questions, contact travelgrant@electrochem.org

SYMPOSIA FUNDING ASSISTANCE

Additional financial assistance is limited and generally governed by symposium organizers. To inquire if such 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. Sponsor ECS meeting events to heighten your brand visibility and reinforce your position as an industry leader. 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—while enhancing ECS meetings.

ECS also offers specific symposium sponsorship. Your sponsorship helps offset symposium 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

If you have questions or require additional information, contact ECS.

2 Call for Papers • 244th ECS Meeting • GOTHENBURG • Sweden • October 8-12, 2023 • www.electrochem.org

INFORMATION

The Electrochemical Society 65 South Main Street,

NJ,

Tel: 1.609.737.1902; fax: 1.609.737.2743

www.electrochem.org

Pennington,

USA 08534-2839

meetings@electrochem.org

244th ECS MEETING – SYMPOSIUM TOPICS

A Batteries and Energy Storage

A01 New Approaches and Advances in Electrochemical Energy Systems

A02 Lithium Ion Batteries

A03 Battery Safety and Failure Modes 4

A04

Next-Generation Batteries

A05 Electrochemical Interfaces in Energy Storage: Theory Meets Experiment

A06 New Developments and Applications of Electrode Binders for Rechargeable Battery and other Electrochemical Systems

A07 Interplay between Temperature and Battery Phenomenon

B Carbon Nanostructures and Devices

B01 Carbon Nanostructures: From Fundamental Studies to Applications and Devices

C Corrosion Science and Technology

C01 Corrosion General Session

C02 Corrosion in Nuclear Energy Systems: From Cradle to Grave 3

C03 Metallic, Organic, Inorganic, and Composite Coatings for Corrosion Protection

C04 Analytical Tools in Corrosion Research

D Dielectric Science and Materials

D01 Semiconductors, Dielectrics, and Metals for Nanoelectronics 20

D02 Plasma and Thermal Processes for Materials Modification, Synthesis, and Processing 5

D03 Advanced 3D Interconnect Technologies and Packaging 2

D04 Water-Energy Nexus Research Relating to Electrochemical Sciences

E Electrochemical/Electroless Deposition

E01 Metal Electrodeposition from Fundamentals to Applications

E02 Electrodeposition of Porous Materials and Materials with Complex Geometries

E03 Electrodeposition of Enhanced Materials: Electrical and Thermal Conductivities

E04 Current Trends in Electrodeposition – An Invited Symposium

F Electrochemical Engineering

F01 Advances in Industrial Electrochemistry and Electrochemical Engineering

F02 Electrochemical Separations and Sustainability 6

F03 Pulse and Reverse Pulse Electrolytic Processes 4: In Honor of E. J. Taylor

F04 Electrochemical Conversion of Biomass 4

G Electronic Materials and Processing

G01 Atomic Layer Deposition and Etching Applications 19

G02 Semiconductor Process Integration 13

H Electronic and Photonic Devices and Systems

H01 State-of-the-Art Program on Compound Semiconductors 66 (SOTAPOCS 66)

H02 Semiconductor Wafer Bonding: Science, Technology, and Applications 17

H03

Low-Dimensional Nanoscale Electronic and Photonic Devices 16

H04 Gallium Nitride and Silicon Carbide Power Technologies 13

I Fuel Cells, Electrolyzers, and Energy Conversion

I01 Polymer Electrolyte Fuel Cells and Electrolyzers 23 (PEFC&E23)

I02 Photovoltaics for the 21st Century 19: New Materials and Processes

I03 High Temperature Corrosion and Materials Chemistry 15

I04 Ionic and Mixed Conducting Ceramics 14

I05 Photocatalysts, Photoelectrochemical Cells, and Solar Fuels 13

I06 Crosscutting Materials Innovation for Transformational Chemical and Electrochemical Energy Conversion Technologies 5

J Luminescence and Display Materials, Devices, and Processing

J01 Luminescence and Display Materials: Fundamentals and Applications

K Organic and Bioelectrochemistry

K01 Advances in Organic and Biological Electrochemistry

L Physical and Analytical Electrochemistry, Electrocatalysis, and Photoelectrochemistry

L01 Physical and Analytical Electrochemistry, Electrocatalysis, and Photoelectrochemistry General Session

L02 Electrode Processes 14

L03 Advanced Techniques for In Situ Electrochemical Systems 6

L04 Physical and Analytical Electrochemistry in Ionic Liquids 6

L05 Scanning Probe Microscopy 3

L06 Electrochemical Waste Remediation 2

L07 Nanoscale Electrochemistry

L08 Nanostructured Metal Oxides and Polyoxometallate Clusters in Electrocatalysis, Electrochemical Energy Conversion, and Storage

L09 Physical and Electrochemical Processes at Flow Battery Electrodes

L10 Interfacial Analysis for Energy Storage

L11 Everything Voltammetry – Pulsed, Stepped, and Other Waveforms

M Sensors

M01 Recent Advances in Sensors Systems 4

M02 Biosensors, Lab-on-chips, Point-of-care Testing, In Vitro, and In Vivo Imaging 2

Z General

Z01 General Student Poster Session

Z02 Electrochemistry in Space 3

Z03 Young Researchers in Europe: A Special Symposium and Workshop

Important Dates and Deadlines

Meeting abstract submission opens

November 2022

Meeting abstracts submission deadline April 7, 2023

Travel grant applications open April 7, 2023

Notification to corresponding authors of abstract acceptance or rejection

June 12, 2023

Technical program published online June 2023

Meeting registration opens June 2023

ECS Transactions submission site opens June 16, 2023

Travel grant application deadline June 26, 2023

Meeting sponsor and exhibitor deadline

(for inclusion in printed materials) July 28, 2023

ECS Transactions submission deadline

July 14, 2023

Travel grant approval notification August 28, 2023

Hotel and early meeting registration deadlines September 11, 2023

Release date for ECS Transactions on or before September 29, 2023

3 Call for Papers • 244th ECS Meeting • GOTHENBURG • Sweden • October 8-12, 2023 • www.electrochem.org

A—Batteries and Energy Storage

A01 New Approaches and Advances in Electrochemical Energy Systems Energy Technology Division; Battery Division; Industrial Electrochemistry and Electrochemical Engineering Division

The symposium focuses on “outside 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 nonaqueous environments are of particular interest. The symposium features oral presentations, posters, and invited talks from subject matter experts.

As part of this symposium, under “Ideas, Interchange & Initiative” (Triple I), abstracts can be submitted based on premature and unexplainable results. This 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.

A02

Lithium Ion Batteries Battery Division

Lithium ion batteries have driven the portable electronics market’s tremendous growth. 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 symposium organizers: Zheng Li, Virginia Tech, email: zhengli@vt.edu; Guoying Chen, Lawrence Berkeley National Laboratory, email: gchen@lbl.gov; Neil Dasgupta, University of Michigan, email: ndasgupt@umich.edu.

A03 Battery Safety and Failure Modes 4 Battery Division

The severity of an energetic battery safety mishap has the potential to make high specific energy battery chemistries an at risk technology for high-reliability applications. As such, improvements in cell and battery safety design without compromising performance continues to be a major focus for researchers, manufacturers, and users across all sectors of the energy storage marketplace. Safe passenger travel in emerging modes of electrified transportation such as commercial aviation, marine, and novel ground transport applications is enabled by safe rechargeable battery technologies. An improved understanding of rechargeable battery failure mechanisms will facilitate regulatory agency approval and public acceptance of early deployment of advanced battery energy storage systems for high reliability applications.

The goal of this symposium is to address battery safety from the perspective of materials, cell, and battery-level design improvements, which reduces the severity and consequences of an energetic safety incident. Specific topics and areas to be discussed include, but are not limited to:

1) Use of advanced techniques in adiabatic and isothermal calorimetry for safe battery design;

2) Improvements in cell design safety features;

3) Materials characterization, diagnostics, and prognostics from in situ, in operando, and postmortem techniques;

4) Safety of next-generation rechargeable cell technologies (such as solid state, lithium metal, sodium, potassium, magnesium, and redox-flow);

5) Effect of fast charging or aging on cell safety and degradation characteristics;

6) Development of novel low or non-flammable cell electrolytes;

7) Analyses that improves understanding of cell failure mechanisms and hazards;

8) Other battery safety topics not covered by the above or in other symposia.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Thomas P. Barrera, LIB-X Consulting, email: tpbarrera@libxconsulting.com; Loraine TorresCastro, Sandia National Laboratories, email: ltorre@sandia.gov; Paul Shearing, Imperial College London, email: p.shearing@ucl.ac.uk; Akos Kriston, European Commission, email: akos.kriston@ec.europa.eu.

A04 Next-Generation Batteries Battery Division

To accelerate the pace of materials discovery, development, and optimization for electrochemical energy storage systems, it is necessary to apply a combined computational and experimental approach to discover the winning candidates for next generation batteries. In this symposium, we hope to gather many researchers around the world to discuss new advances in materials design and modeling of battery materials. The symposium’s emphasis is on new promising electrode materials and systems, their electrochemical properties, and reaction mechanisms.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Venkataraman Thangadurai, University of Calgary, email: vthangad@ucalgary.ca; John Muldoon, Toyota, email: john.muldoon@toyota.com; Kang Xu, United States Army Research Laboratory, email: conrad.k.xu.civ@mail.mil.

4 Call for Papers • 244th ECS Meeting • GOTHENBURG • Sweden • October 8-12, 2023 • www.electrochem.org

A05

Electrochemical Interfaces in Energy Storage: Theory Meets Experiment Battery Division

The organizers invite contributions that provide better understanding of the mechanism of electronic and ionic transport phenomena across electrode-electrolyte interfaces and solid state interphases in lithium ion batteries. The underlying principles that govern these phenomena are inextricably linked to our ability to sense and monitor electrode surface processes in situ, in real time, and with adequate spatial and temporal resolution. A better understanding of the elementary processes involved in the formation of the electrolyte/electrode interface and charge transfer kinetics in relation to solvent, salt, additive, and electrode material is crucial to the further optimization of Li-ion batteries. This symposium focuses on both the fundamental and applied aspects of electrolyte and interfaces for Li and Li-ion batteries. Papers are welcome that leverage advances in experimental and theoretical modeling approaches to characterize and describe the mechanism of electrolytes or interfacial phenomena and their impact on the electrochemical performance of the materials, composite electrodes, and energy storage systems.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Veronica Augustyn, North Carolina State University, email: vaugust@ncsu.edu; Chao Zhang, Uppsala universitet, email: chao.zhang@kemi.uu.se; De-en Jiang, University of California, Riverside, email: djiang@ucr.edu; Daniel Brandell, Uppsala universitet, email: Daniel.Brandell@kemi.uu.se.

A06

New Developments and Applications of Electrode Binders for Rechargeable Battery and other Electrochemical Systems Energy Technology Division; Battery Division

The symposium focuses on new materials and new processes for the application of binder materials in the electrochemical system. Lately, electrode binder has attracted significant attention due to the expanded research effort in electrochemical energy storage and conversion for realizing sustainable and efficient energy conversion, storage, and transmission. We encourage submitting binder materials applied in fuel cells, capacitors, PEC, and photovoltaics. Physical properties contributing to multifunctionality of binders applied to electrode materials such as silicon, sulfur, etc., for batteries and solid state electrolyte are of particular interest. The symposium covers new materials development, electrode and electrolyte processing and interface characterization, as well as system performance. The symposium features oral presentations, posters, and invited talks from subject matter experts.

org/publications

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Gao Liu, Lawrence Berkeley National Laboratory, email: gliu@lbl.gov; Ramin Amin-Sanayei, Arkema, email: ramin.amin-sanayei@arkema.com; Ayyakkannu Manivannan, Global Pragmatic Materials, email: manigpm1@outlook. com; Golareh Jalilvand, University of South Carolina, email: golareh@ mailbox.sc.edu.

A07 Interplay between Temperature and Battery Phenomenon Battery Division

The purpose of this symposium is to bring together researchers investigating interactions between temperature and battery behavior at a range of length scales, time scales, and severity. Batteries generate heat nonlinearly during charge and discharge, requiring the need for thermal management, or heat rejection. However, the complex and stochastic electrochemical phenomenon of batteries, especially in Li-ion systems, demands fundamental understanding, instrumentation, and multiphysics modeling for informed thermal management design. Further, growing interest in extreme conditions, like low-temperature environments or fast charging, exacerbate self-heating behaviors, drawing attention to local and global temperature variations. The topics of this symposium include, but are not limited to:

1) Local phenomenon driven by temperature;

2) Thermal gradients and transients;

3) Thermal management design;

4) Instrumentation of cells and packs;

5) Extreme environments;

6) Heat generation measurement/estimation;

7) Modeling (bridging scales);

8) Novel cell and battery designs.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Rachel Carter, Naval Research Laboratory, email: Rachel.carter@nrl.navy.mil; Gregory Offer, Imperial College London, email: gregory.offer@imperial.ac.uk; Sabine Paarmann, Karlsruher Institut für Technologie, email: sabine.paarmann@kit.edu; Joseph A Fleming, Coventry University, email: ad2479@coventry.ac.uk; Xiao-Guang Yang, Beijing Institute of Technology, email: xgyang@bit. edu.cn.

B—Carbon Nanostructures and Devices

B01

Carbon Nanostructures: From Fundamental Studies to Applications and Devices Nanocarbons Division

This broad symposium includes both fundamental and applied studies of fullerenes, carbon nanotubes, graphene, and related materials. Papers are invited in the areas of chemistry, physics, and materials science. Relevant topics include the synthesis and preparation of nanocarbon samples, and characterization of their mechanical, thermal, chemical, electrochemical, optical or electronic properties. Also welcome are papers concerning nanocarbon applications in areas such as electrochemistry, electronic and opto-electronic devices, sensing, energy conversion and storage, and biomedicine.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Jeff L. Blackburn, National Renewable Energy Laboratory, email: Jeffrey.Blackburn@nrel.gov; Ardemis Boghossian, École Polytechnique Fédérale de Lausanne, email: ardemis.boghossian@epfl.ch; Yan Li, Peking University, email: yanli@ pku.edu.cn.

5 Call for Papers • 244th ECS Meeting • GOTHENBURG • Sweden • October 8-12, 2023 • www.electrochem.org

C01

C—Corrosion Science and Technology

Corrosion General Session 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.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Dev Chidambaram, Nevada Institute for Sustainability, email: dcc@unr.edu; Eiji Tada, Tokyo Institute of Technology, email: tada.e.aa@m.titech.ac.jp.

C02 Corrosion in Nuclear Energy Systems: From Cradle to Grave 3 Corrosion Division

Nuclear power reactors presently generate ~10 percent of the world’s electricity. Over 400 reactors are in operation and nearly 50 more are under construction. Further, several Generation IV reactors and small modular reactors (SMR) are currently being designed to improve safety, efficiency, and optimize fuel cycle and waste management. Several countries have licensed construction of nuclear fuel waste repositories or are in the process of considering it. A critical factor in all designs, whether currently in operation or being designed, is the understanding and control of a wide range of corrosion issues. This symposium focuses on all corrosion issues involved in nuclear power related to fuel cycle (from mining to reprocessing and disposal); in-reactor corrosion; design and function of in-reactor sensors; corrosion considerations for next generation reactor systems such as molten salt reactors; and corrosion issues in short-term and long-term waste storage. The submission of experimental, theoretical, and computational papers dealing with all aspects of corrosion in nuclear systems is encouraged.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: James J. Noël, Western University, email: jjnoel@uwo.ca; Dev Chidambaram, University of Nevada, email: dcc@unr.edu.

C03

Metallic, Organic, Inorganic, and Composite Coatings for Corrosion Protection Corrosion Division

Papers are invited on all topics related to advances in metallic, inorganic, organic, and composite coatings for the corrosion protection of metallic substrates. Suitable topics include pretreatments, conversion coatings, sacrificial coatings, barrier coatings, adhesion promotion, self-healing coatings, chromate-replacement, smart-release inhibitor systems, and novel inhibitors generally. Papers providing mechanistic insights into the action of functional coating components such as novel galvanizing alloys, novel inhibitors, ion-exchange pigments, microencapsulated inhibitors and reagents, electrically conducting polymers, and nano-pigments are particularly encouraged.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Michael Rohwerder, MaxPlanck-Institut für Eisenforschung GmbH, email: rohwerder@mpie. de; Geraint Williams, Swansea University, email: geraint.williams@ swansea.ac.uk; Yaiza Gonzalez-Garcia, Technische Universiteit Delft, email: y.gonzalezgarcia@tudelft.nl; Herman Terryn, Vrije Universiteit Brussel, email: herman.terryn@vub.be.

C04 Analytical Tools in Corrosion Research Corrosion Division

Papers are invited on all topics related to analytical tools in corrosion research. Suitable topics include electrochemical, scanning probe, surface analytical, synchrotron-based, neutron scattering, micro- and nano-scopic, and other novel and standard methods. Contributions on the underlying theoretical aspects of analytical tools are particularly encouraged.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Masayuki Itagaki, Tokyo University of Science, email: itagaki@rs.noda.tus.ac.jp; Michael Rohwerder, MaxPlanck-Institut für Chemische Energiekonversion, email: m.rohwerder@ mpie.de; Yaiza Gonzalez-Garcia, Technische Universiteit Delft, email: y.gonzalezgarcia@tudelft.nl; Eiji Tada, Tokyo Institute of Technology, email: tada.e.aa@m.titech.ac.jp.

D—Dielectric Science and Materials

D01 Semiconductors, Dielectrics, and Metals for Nanoelectronics 20 Dielectric Science and Technology Division; Electronics and Photonics Division

Recently, AI hardware-related materials and devices have attracted significant interest in the semiconductor research community. New devices, metals, and dielectrics are being considered for AI, in-memory computing, and neuromorphic computing. Devices such as resistive RAM, ferroelectric RAM, and phase-change memory (PCM) are taking the lead to reduce power requirements. The processing and reliability of these devices have not been explored. In addition, 2D semiconductor materials and devices involving MoS2; WSe2; and the growth, characterization, and modeling of other metal dichalcogenides, graphene, silicene, and germanene are also taking center stage. Nanoelectronics and nanotechnology systems involving NC-FETs, FinFET, multi-gate MOSFETs, nanotubes, nanowires, quantum dots, spintronics, plasmonics, and tunnel FETs are receiving considerable attention regarding integration into semiconductor manufacturing.

The symposium features invited speakers from around the world. Young investigators including senior PhD students and early career researchers are encouraged to submit their work. We encourage the submission of abstracts on all topics related to material science, modeling, reliability, and manufacturing involving metal, dielectrics, and semiconductors for these research areas.

6 Call for Papers • 244th ECS Meeting • GOTHENBURG • Sweden • October 8-12, 2023 • www.electrochem.org

D02 Plasma and Thermal Processes for Materials Modification, Synthesis, and Processing 5 Dielectric Science and Technology Division; Electronics and Photonics Division

CVD, plasma-enhanced CVD, etching, and related techniques have enjoyed extensive success in microelectronics processing. These techniques have also been applied to the synthesis and production of nanostructured elemental and compound semiconductor materials (Si, Ge, ZnO, Zn3P2, Zn4Sb3, GaN, InN, GaSb, and many others) for electronics, optoelectronics, sensors, photovoltaics, and thermoelectrics. Nanowires, nanotubes, QDOTs, and 2D materials have also been employed in MEMS, artifact restoration, and surface treatments in health care. The topics for this symposium include, but are not limited to, the abovementioned processes and applications as well as surface functionalization, photoresist removal, atomic layer etching, difficult-to-etch materials, decontamination, pollution abatement, and displays. Papers focusing on material growth or etch mechanisms, modeling, reactor design, process diagnostics, materials characterization, and advances in novel applications are strongly encouraged.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Thorsten Lill, Lam Research, email: Thorsten.Lill@lamresearch.com; Sreeram Vaddiraju, Texas A&M University, email: sreeram.vaddiraju@tamu.edu; Mahendra Sunkara, Conn Center for Renewable Energy Research, email: mahendra@ louisville.edu; Peter Mascher, McMaster University, email: mascher@ mcmaster.ca; Uros Cvelbar, Jožef Stefan Institute, email: uros.cvelbar@ ijs.si; Dennis Hess, Georgia Institute of Technology, email: dennis.hess@ chbe.gatech.edu; Oana Leonte, Berkeley Polymer Technology, email: oana.leonte@yahoo.com.

D03 Advanced 3D Interconnect Technologies and Packaging 2

Dielectric Science and Technology Division; Electronics and Photonics Division

This symposium focuses on issues pertinent to advances in traditional damascene interconnects, and new materials and integration methods for 3D interconnects. An emerging technology or device architecture called 3D integration is based on the system performance gains that can be achieved by stacking and vertically interconnecting distinct device layers. The 3D concept of replacing long 2D interconnects with shorter vertical (3D) interconnects has the potential to alleviate the well-known interconnect (RC) delay problem facing the semiconductor industry today. Additional benefits of the 3D process include reduced die size and the ability to optimize distinct technologies (analog, logic, RF, etc.) on separate vertically interconnected layers. An application area where large performance gains can be obtained is high-density device/ sensor arrays where processing power is placed within each individual device. Damascene copper interconnects, introduced at the 0.25 µm node, have spanned six technology nodes, and are expected to be used for the foreseeable future. Despite the history of success, there are new challenges including increases in effective resistivity, electromigration and stress migration resistance, and the integration of porous low-k dielectrics and air gaps.

This symposium brings together researchers to discuss the challenges and solutions to extend damascene copper interconnects well beyond the 45 nm node. This symposium aims to discuss the proposed architectures and applications of 3D integration, and the various enabling materials and processes that are required to bring the technology into full commercialization. Broadly, the enabling process technologies include wafer/die thinning, wafer/die bonding, and vertical interconnect fabrication. Each of these process technologies will leverage novel materials, and much of the emphasis of this symposium is on the materials science of these 3D integration materials. Ideally, this symposium brings together researchers to discuss the various merits of the presented 3D

device architectures, materials, and fabrication methodologies. Topics of interest include, but are not limited to:

1) Methods to reduce increases in effective resistivity;

2) Methods to mitigate electromigration and stress migration issues;

3) Advanced barrier/seed processes including ALD and electroless films;

4) Porous low-k ILDs and air gap processing (including deposition and etching);

5) Novel electrodeposition and CMP processes;

6) 3D process integration methodologies;

7) 3D design and architectures;

8) Simulation and modeling of 3D integrated devices;

9) Materials and techniques for die and wafer bonding;

10) Processing and handling of thin wafers and dice;

11) Materials for temporary die and wafer bonding;

12) Vertical interconnect fabrication technology;

13) Materials for vertical interconnects: Insulators, barriers, and metals;

14) Reliability of 3D interconnects;

15) Novel test and measurement of 3D integrated devices;

16) Thermal management in 3D integrated devices;

17) Epitaxial and recrystallization approaches to 3D integration;

18) 3D integration of heterogeneous materials;

19) Thermomechanical reliability and electromigration in 3D integrated devices.

D04 Water-Energy Nexus Research Relating to Electrochemical Sciences

Dielectric Science and Technology Division; Industrial Electrochemistry and Electrochemical Engineering Division

Production of renewable energy requires large quantities of water, and supply of fresh water needs energy. Electrochemical sciences play a huge role in disrupting, to some extent, this interdependence. For example, semiconductor-assisted photocatalysis and plasma-assisted processes are highly useful in the removal of pollutants, dyes, and harmful microorganisms from water. Contextually, this symposium aims to bring together researchers interested in studying semiconductors, materials, and processes for water remediation, such as removal of pollutants, dyes, and harmful microorganisms from water. Semiconductor materials useful for the removal of emerging contaminants, such as pharmaceuticals, are also encouraged for submission. Papers describing synthesis/fabrication and assembly of materials useful for the simultaneous removal of pollutants from water, along with its desalination, are also welcome. Finally, papers describing the large-scale production of materials for water remediation are also encouraged.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Sreeram Vaddiraju, Texas A&M University, email: sreeram.vaddiraju@tamu.edu; Uros Cvelbar, Jožef Stefan Institute, email: uros.cvelbar@ijs.si; Mahendra Sunkara, Conn Center for Renewable Energy Research, email: mahendra@ louisville.edu; Vimal H. Chaitanya, New Mexico State University,

7 Call for Papers • 244th ECS Meeting • GOTHENBURG • Sweden • October 8-12, 2023 • www.electrochem.org

email: vimalc@nmsu.edu; Gautam Banerjee, Micron Technology, Inc., email: gbanerje@gmail.com; Shiqiang Zou, Auburn University, email: shiqiang@auburn.edu.

E—Electrochemical/Electroless Deposition E01 Metal Electrodeposition from Fundamentals to Applications Electrodeposition Division

The symposium covers recent advances in fundamental aspects, methods, and applications of electrochemical and electroless growth of epitaxial and polycrystalline thin films, alloys, multilayers, and nanostructures. The symposium aims to bring together researchers from a broad range of areas of electrochemical and engineering science to discuss the current understanding of a link between the fundamental processes and properties of electrodeposited materials and applications. Original contributions are sought, but not limited to the following areas:

• Fundamentals of electrochemical nucleation and growth;

• Surface controlled deposition electrochemical ALD and surfacelimited replacement;

• Electrodeposition of alloys;

• Electrodeposition from ionic liquids;

• Deposition methods and approaches to control microstructure (texture and grain size) and properties;

• Electrochemical deposition of oxides, semiconductors, and compounds.

This symposium also invites contributions discussing the effects of external stimuli on the thermodynamics and kinetics of electrochemical reactions. Typical examples would be light-induced plating at semiconductor electrodes or enhanced mass transport caused by magnetic fields or ultrasound. The symposium aims to contribute to our fundamental understanding of such effects in order to use the external stimuli to tailor electrochemical reactions. Typical applications can be metal depositions or reactions related to electrochemical conversion and storage of energy. This symposium provides a space for fruitful discussions, including aspects related to both fundamental research as well as technological innovations.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Walther Schwarzacher, University of Bristol, email: W.Schwarzacher@bristol.ac.uk; Natasa Vasiljevic, University of Bristol, email: n.vasiljevic@bristol.ac.uk; Timothy D. Hall, Faraday Technology, Inc., email: timhall@faradaytechnology.com; Stanko Brankovic, University of Houston, email: srbranko@central. uh.edu; Andreas Bund, Technische Universität Ilmenau, email: andreas. bund@tu-ilmenau.de; Adriana Ispas, Technische Universität Ilmenau, email: Adriana.Ispas@tu-ilmenau.de; Massimo Innocenti, Università degli Studi di Firenze, email: m.innocenti@unifi.it; Amanda M Clifford, University of British Columbia, email: amanda.clifford@ubc.ca; Luca Magagnin, Politecnico di Milano, email: luca.magagnin@polimi.it.

E02

Electrodeposition of Porous Materials and Materials with Complex Geometries

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

The capability to fabricate substrates and films with complex and porous geometries, as well as three-dimensional assemblies of micro- and nanostructures will determine new perspectives in various disciplines such as energy materials, energy storage, catalysis, sensing or flexible electronics. Among the available synthesis techniques, electrodeposition

offers enormous possibilities. This symposium provides a forum for discussion of various electrodeposition approaches aiming at fabricating nanoporous materials and materials with complex geometries in a controlled and reproducible manner.

Areas of interest include (but are not limited to) experimental and theoretical work on the synthesis of nanoporous materials by dealloying, the electrodeposition of porous and hierarchical materials using surfactants and/or templates, electrochemical 3D printing, as well as their applications.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Maria Eugenia Toimil Molares, GSI Helmholtzzentrum für Schwerionenforschung, email: m.e.toimilmolares@gsi.de; Nikolay G. Dimitrov, State University of New York at Binghamton, email: dimitrov@binghamton.edu; Natasa Vasiljevic, University of Bristol, email: n.vasiljevic@bristol. ac.uk; Plamen Atanassov, University of New Mexico, email: plamen. atanassov@uci.edu; Stoyan Bliznakov, University of Connecticut, email: stoyan.bliznakov@uconn.edu.

E03 Electrodeposition of Enhanced Materials: Electrical and Thermal Conductivities Electrodeposition Division

The increasing demand for new technologies accompanying the emergence of new needs (e.g., electrical cars, integrated smart systems, power semi-conductor devices) is an interesting driving force for innovation in coatings. They may be used to improve thermal and electrical conductivities, material strength, corrosion resistance, fatigue life or any other property that enhances their viability for next-generation systems.

The symposium provides an interdisciplinary forum to discuss new techniques and results allowing us to push back the boundaries of former system performances. Papers are solicited in all areas of electrodeposition with significant innovation and effect on the expected coatings’ properties. Examples include, but are not limited to:

1) Replacement of cadmium in the connector industry;

2) Composites coatings;

3) Film elaboration for assembling;

4) Coating with low resistivities for connectors (battery packs, vehicles, etc.);

5) New coatings for HT-PEMFC bipolar plates;

6) Conductors in microdevices.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Jean-Yves Hihn, UTINAM, email: jean-yves.hihn@univ-fcomte.fr; Timothy D. Hall, Faraday Technology, Inc., email: timhall@faradaytechnology.com; Qiang Huang, The University of Alabama, email: qhuang@eng.ua.edu.

E04 Current Trends in Electrodeposition –An Invited Symposium Electrodeposition Division

This symposium provides a forum to present new and exciting research of interest to the electrodeposition community led by the past ELDP Division Chair. The half-day symposium is comprised of 40-minute invited talks. We intend to highlight the most recent exciting and perhaps controversial research topics to promote discussions in these areas.

8 Call for Papers • 244th ECS Meeting • GOTHENBURG • Sweden • October 8-12, 2023 • www.electrochem.org

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizer: Philippe M. Vereecken, imec and Katholieke Universiteit Leuven, email: Philippe.Vereecken@imec.be.

F—Electrochemical Engineering

• Integration of electrochemical separation with renewable energy;

• Other technologies relevant to electrochemical separation.

F01

Advances in Industrial Electrochemistry and Electrochemical Engineering

Industrial Electrochemistry and Electrochemical Engineering 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; the 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.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Maria Inman, Faraday Technology, Inc., email: mariainman@faradaytechnology.com; Paul Kenis, University of Illinois, email: kenis@illinois.edu; Elizabeth Biddinger, City College of New York, email: ebiddinger@ccny.cuny.edu.

F02

Electrochemical Separations and Sustainability 6

Industrial Electrochemistry and Electrochemical Engineering Division; Electrodeposition Division; Energy Technology Division; High-Temperature Energy, Materials, & Processes Division; Physical and Analytical Electrochemistry Division

Electrochemical separations can recover or harvest value products at high purity and efficiency, as well as contribute technologies for environmental management and cleanup. These innovative processes become extremely meaningful when integrated with sustainable resources and renewable energy. The current symposium intends to address fundamental topics as well as modern applications of electrochemical separation technologies. Electrochemical separations have received renewed attention due to growing challenges in energy, environment, and sustainability. Now the electrochemical separation has been applied in many important areas including gas purification, critical materials recovery, environmental remediation, desalination, and materials recycling. Therefore, it is great timing to have this symposium to summarize the progress and provide perspective for the future. This topic covers from fundamental electrochemical principles behind separations, to a range of applications. This symposium focuses on papers covering the following topics:

• Electrochemical separation mechanisms and fundamentals;

• Electrochemical separation modeling;

• Gas separation for ultra-pure H2, O2, CO2, etc.;

• Sea and brackish desalination technologies;

• Wastewater remediation;

• Energy materials (e.g., fuel cell and battery) recycling;

• Rare earth element recovery and harvest from mining tale;

• Valuable materials (e.g., Li) from seawater;

• Electrochemical synthesis-separation synergy;

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Xiao Su, University of Illinois at Urbana-Champaign, email: x2su@illinois.edu; Hui Xu, Envision Energy USA, email: hui.xu2@envision-energy.com; Ilias Belharouak, Oak Ridge National Laboratory, email: belharouaki@ornl.gov; Thomas Zawodzinski, University of Tennessee, Knoxville, email: tzawodzi@utk. edu; Dong Ding, Idaho National Laboratory, email: dong.ding@inl.gov; Alice Suroviec, Berry College, email: asuroviec@berry.edu; William Tarpeh, Stanford University, email: wtarpeh@stanford.edu; Christopher G. Arges, Pennsylvania State University, email: chris.arges@psu.edu; E. Jennings Taylor, Faraday Technology, Inc., email: jenningstaylor@ faradaytechnology.com; Natasa Vasiljevic, University of Bristol, email: N.Vasiljevic@bristol.ac.uk; Benjamin P. Wilson, Aalto-yliopisto, email: ben.wilson@aalto.fi.

F03 Pulse and Reverse Pulse Electrolytic Processes 4: In Honor of E. J. Taylor Industrial Electrochemistry and Electrochemical Engineering Division; Electrodeposition Division; Energy Technology Division

Recent advances in pulse and pulse-reversed electric fields have found application in electrochemical machining, electropolishing and surface finishing, and a wide variety of electrodeposited materials. New electrolytes have also become viable due to the application of pulse and pulse reverse technologies. Papers are sought that describe recent advancement in methods, materials, and processes that utilize pulsed and pulse-reversed electric fields. This symposium is held in honor of E. Jennings Taylor, a pioneer of industrial application of pulse reverse plating, surface finishing, and conversion technologies.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Maria Inman, Faraday Technology, Inc., email: mariainman@faradaytechnology.com; Andreas Bund, Technische Universität Ilmenau, email: Andreas.Bund@tuilmenau.de; Sudipta Roy, University of Strathclyde, email: sudipta.roy@ strath.ac.uk; Elizabeth Podlaha, Clarkson University, email: epodlaha@ clarkson.edu; Timothy D. Hall, Faraday Technology, Inc., email: timhall@faradaytechnology.com; Kathy Ayers, Nel Hydrogen, email: kayers@nelhydrogen.com; Santosh Vijapur, Faraday Technology, Inc, email: santoshvijapur@faradaytechnology.com; John Harb, Brigham Young University, email: john_harb@byu.edu.

F04

Electrochemical Conversion of Biomass 4 Industrial Electrochemistry and Electrochemical Engineering Division; Energy Technology Division

This symposium provides a forum to present applications, technology, and recent development in the area of electrochemical conversion of biomass. Of particular interest are topics related to electrochemical conversion of biomass to value-added chemicals and fuels of all kinds, and treatment of industrial waste. Presentations related to the development of electrocatalysts or other materials, as well as complete systems, for the electrochemical conversion of biomass are relevant. Kinetics and electrochemical conversion mechanisms are also of interest. This topic focuses on electrochemical conversion of all forms of biomass, including algae and lignocellulosic materials.

This symposium is not publishing an issue of ECS Transactions. ECS encourages presenters to submit to the ECS Family of Journals as an

9 Call for Papers • 244th ECS Meeting • GOTHENBURG • Sweden • October 8-12, 2023 • www.electrochem.org

alternate publishing opportunity. Learn more at https://www.electrochem. org/publications.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Elizabeth Biddinger, The City College of New York, email: ebiddinger@ccny.cuny.edu; Christopher Saffron, Michigan State University, email: saffronc@msu.edu; John Staser, Ohio University, email: staser@ohio.edu; Scott Calabrese Barton, Michigan State University, email: scb@msu.edu; Juan A. LopezRuiz, Pacific Northwest National Laboratory, email: juan.lopezruiz@ pnnl.gov.

G—Electronic Materials and Processing

G01 Atomic Layer Deposition and Etching Applications 19 Electronics and Photonics Division; Dielectric Science and Technology Division

Continued progress in nanotechnology and nanomanufacturing requires precise, conformal coatings of thin film materials. Atomic layer deposition (ALD) enables the deposition of ultra-thin, highly conformal coatings over complex 3D topographies with precise control over both thickness and composition. Consequently, ALD has become the technology of choice for a large variety of applications beyond microelectronics. Over the last 18 years, this symposium has earned a leading position among the meetings where ALD and ALE are discussed.

This symposium offers an excellent forum for sharing cutting-edge research on both existing and emerging ALD applications, as well as fundamental aspects of ALD technology. Contributions are solicited in the following areas:

1) Semiconductor CMOS applications: Development and integration of ALD high-k oxides and metal electrodes with conventional and high-mobility channel materials;

2) Volatile and nonvolatile memory applications: Extendibility, Flash, MIM, MIS, RF capacitors, etc.;

3) Interconnects and contacts: Integration of ALD films with Cu and low-k materials;

4) Fundamentals of ALD processing: Reaction mechanisms, in situ measurement, modeling, theory;

5) New precursors and delivery systems;

6) Optical and photonic applications;

7) Coating of nanoporous materials by ALD;

8) MLD and hybrid ALD/MLD;

9) ALD for energy conversion applications such as fuel cells, photovoltaics, etc.;

10) ALD for energy storage applications;

11) Productivity enhancement, scale-up and commercialization of ALD equipment and processes for rigid and flexible substrates, including roll-to-roll deposition;

12) Area-selective ALD;

13) Atomic layer etching (“reverse ALD”) and related topics aiming at self-limited etching, such as atomic layer cleaning, etc.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Fred Roozeboom, Universiteit Twente, email: f.roozeboom@utwente.nl; Stefan De Gendt, Katholieke Universiteit Leuven, email: Stefan.Degendt@imec.be; Jolien Dendooven, Universiteit Gent, email: Jolien.Dendooven@UGent.be; Jeffrey Elam, Argonne National Laboratory, email: jelam@anl.gov; Oscar van der Straten, IBM Corporation Research Center, email: ovander@us.ibm. com; Andrea Illiberi, ASM Europe, email: andrea.illiberi@asm.com; Ganesh Sundaram, Veeco, email: gsundaram@veeco.com; Rong Chen,

Huazhong University of Science and Technology, email: rongchen@ mail.hust.edu.cn; Oana M. Leonte, Berkeley Polymer Technologies, Inc., email: odleonte@comcast.net; Thorsten Lill, Lam Research, email: thorsten.lill@lamresearch.com; Matthias Young, University of MissouriColumbia, email: matthias.young@missouri.edu; Bhaskar Bhuyan, Applied Materials, email: Bhaskar_Bhuyan@amat.com.

G02 Semiconductor Process Integration 13 Electronics and Photonics Division

The 13th Symposium on Semiconductor Process Integration provides a forum for reviewing and discussing all aspects of process integration. Contributed papers are solicited in the following areas:

1) Device technologies: Trends in ultra-scaled technologies for advanced logic devices, circuits, and applications, e.g., HPC, LOP, mobile, automobile, low-temperature CMOS, RF, mixed analog/digital, high voltage, etc.; advanced memory technologies (e.g., SRAM, DRAM, etc.); 2.5/3D integration technologies and synergy with CMOS; advanced SOI-based technologies; process integration yield and process control techniques for reduced defectivity and variability;

2) Front-end-of-line integration: Transistor architectures such as gate-all-around (stacked) nanowire and nanosheet FETs, extended to the stacking of different polarity devices, scaled gate stacks, (barriers) electrode/dielectrics for memory capacitors and transistors, source-drain and channel processing, CMP and rapid thermal processing, novel isolation schemes, ultra-shallow junctions, channel induced stress and mobility enhancement techniques, plasma processing aspects, transistor process/device integration schemes and scaling approaches/challenges;

3) Interconnects and back-end-of-line integration: Low-k dielectrics, multilevel integrated structures, advanced metal interconnects and barriers, air-gap structures, CMP and metal fill technologies, optical interconnects, alternative metallization schemes;

4) Beyond-Si channel technologies on materials like Si1-xGex, III-V, new channel materials, alternative high mobility substrates (sSOI, sSi, SiGe, GeOI, etc.), including applications-driven hybrid integration;

5) Emerging technologies: Novel memory elements such as RRAM, etc.; device integration for AI, neuromorphic and quantum computing; novel integration schemes for SoC solutions (3D-monolithic, vertical integration, etc.); emerging material integration (carbon nanotubes, 2D materials, grapheme devices, III/V, silicon-organic-hybrid photonic [SOH], polymer electronics, spin and quantum devices, microelectromechanical systems); tackling of challenges on topics such as process control and impact on device/circuits variability, physical layouts effects, energy efficiency, aging, power constraints, carbon footprint are also highly encouraged.

10 Call for Papers • 244th ECS Meeting • GOTHENBURG • Sweden • October 8-12, 2023 • www.electrochem.org

H—Electronic and Photonic Devices and Systems

H01 State-of-the-Art Program on Compound Semiconductors 66 (SOTAPOCS 66) Electronics and Photonics Division

Compound semiconductors are a significant enabler of numerous optoelectronic, high-speed, power, and sensor devices. The SOTAPOCS 66 symposium addresses the most recent developments in inorganic compound semiconductor technology, including traditional III-V materials, III-nitrides, II-VI materials, silicon carbide, diamond, and other emerging materials. Papers on both practical and fundamental issues are solicited. The following areas are of particular interest:

1) Advances in bulk and epitaxial growth techniques;

2) Advances in device processing;

3) Novel electronic, optoelectronic, and sensor devices;

4) Schottky and ohmic contact technology;

5) Dielectric properties and passivation;

6) Wafer bonding and packaging;

7) In situ and ex situ process monitoring;

8) Materials characterization and wafer level testing and mapping;

9) Process-induced defects;

10) Reliability and device degradation mechanisms;

11) Demonstration of state-of-the-art devices and applications.

H02

Semiconductor Wafer Bonding: Science, Technology, and Applications 17 Electronics and Photonics Division

This seminar examines semiconductor wafer bonding related to siliconon-insulator (SOI) materials, strained Si layers, Si-Ge, germaniumon-insulator (GeOI), three-dimensional (3D) device integration, die to wafer 3D device packaging using hybrid bonding, Si on quartz and Si, III-V compound semiconductor hetero-structures, bonding to flexible substrates, and bonded hetero-structures for micro-electronics, photonics, micro-electro-mechanical systems (MEMS), biotechnologies, optronics, photovoltaic, etc.

H03

Low-Dimensional Nanoscale Electronic and Photonic Devices 16 Electronics and Photonics Division; Dielectric Science and Technology Division; Electrodeposition Division; Nanocarbons Division

The 16th LDEPD symposium addresses the most recent developments in nanoscale transparent electronic, photonic materials, and devices. The symposium encompasses low-dimensional and transparent novel materials and devices, processing, device fabrication, reliability, and other related topics. Papers on both practical issues and fundamental studies are solicited. The symposium consists of both invited and contributed papers. This symposium’s proceedings will be published in ECS Transactions and available at the meeting. Authors accepted for presentation are strongly encouraged to submit their full text manuscript no later than July 14, 2023. Submit all manuscripts online in either MS Word or PDF format. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Yu-Lun Chueh, National Tsing-Hua University, email: ylchueh@mx.nthu.edu.tw; Colm O’Dwyer, University College Cork, email: c.odwyer@ucc.ie; Jr-Hau He, King Abdullah University of Science and Technology, email: jrhau.he@kaust.edu.sa; Motofumi Suzuki, Kyoto University, email: m-snki@me.kyoto-u.ac.jp; Song Jin, University of Wisconsin-Madison, email: jin@chem.wisc.edu; Sang-Woo Kim, Sungkyunkwan University, email: kimsw1@skku.edu; Johnny C. Ho, City University of Hong Kong, email: johnnyho@cityu. edu.hk; Zhiyong Fan, Hong Kong University of Science and Technology, email: eezfan@ust.hk; Qiliang Li, George Mason University, email: qli6@gmu.edu; Kuniharu Takei, Osaka Metropolitan University, email: takei@pe.osakafu-u.ac.jp; Jyh-Ming Wu, National Tsing-Hua University, email: jmwuyun@gmail.com; Lance Li, Academia Sinica, email: lance. sinica@gmail.com; Jeffrey Blackburn, National Renewable Energy Laboratory, email: Jeffrey.Blackburn@nrel.gov.

H04 Gallium Nitride and Silicon Carbide Power Technologies 13 Electronics and Photonics Division

The symposium showcases the state of the art in the development of GaN and SiC wide bandgap material and device technologies for power switching and power amplifier applications. Emerging ultra-wide bandgap material and device technologies based on high Al-content AlGaN and gallium oxide are also included. The symposium covers a wide range of topics related to these technologies and their applications:

• Bulk and thin film growth and characterization of materials;

• Defect characterization and reduction techniques;

• Growth chamber design and modeling;

• Doping and carrier lifetime control techniques;

• High-frequency low-loss power magnetic materials;

• Novel power devices and device structures;

• Power device fabrication technologies;

• Chip-scale capacitor, inductor and transformer structures and fabrication technologies;

• Novel physical mechanisms including micro plasma and current filamentation;

• Short-term and long-term device degradation and failure mechanisms;

• Novel accelerated stress testing and lifetime prediction methodologies;

• Device characterization and modeling for performance and reliability;

• Manufacturing cost and yield improvement approaches;

• Homogeneous and heterogeneous chip-scale integration;

• Power converters and power amplifiers;

• Packaging and thermal management;

• Cooling of power chips and modules.

A poster session is scheduled.

11 Call for Papers • 244th ECS Meeting • GOTHENBURG • Sweden • October 8-12, 2023 • www.electrochem.org

I—Fuel Cells, Electrolyzers, and Energy Conversion

Presentations related to acid and alkaline fuel cells that discuss:

1) Novel gas diffusion medium substrates and micro-porous layer designs;

2) Modeling and diagnostic methods to characterize mass- and heat- transport related phenomena, and water management in cells and membrane electrode assemblies (MEAs);

3) CO2 tolerance modeling of anion exchange membrane fuel cells;

4) In situ measurement or visualization (x-ray tomography, neutron imaging, etc.);

5) Advanced ex situ characterization methods (TEM, STM);

6) AC-impedance methods;

7) Electrode and MEA electrochemical modeling;

8) Machine learning and related methods for improved diagnostics and performance.

I01

Polymer Electrolyte Fuel Cells and Electrolyzers 23 (PEFC&E23)

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

This international symposium is devoted to all aspects of research, development, and engineering of polymer electrolyte fuel cells and electrolyzers (PEFC&Es), as well as low-temperature direct-fuel cells using either anion or cation exchange membranes. The intention is to bring together the international community working on these technologies and enable effective interactions between research and engineering communities. The symposium is structured as seven sections covering:

A) Diagnostic techniques;

B) Design/components for fuel cell stacks and systems;

C) Ion-exchange membrane and ionomer development, performance, and durability for fuel cells and electrolyzers;

D) Catalysts for acid fuel cells;

E) Catalysts and membranes for alkaline and direct-fuel acid fuel cells;

F) Polymer-electrolyte water electrolysis;

Z) A full day plenary session on leading technologies.

Abstracts are considered for other polymer-membrane-based electrochemical devices like electrochemical hydrogen pumps, but excluding CO2 electrochemical reduction and photochemical water splitting, which are covered by other symposia.

PEFC&E23 supports students and postdoctoral participation to encourage development of new and talented researchers in the field. We expect to award approximately 10 Student/Postdoc Travel Grants to encourage broad participation of graduate students and postdoctoral fellows new to the topic research areas. To apply for a PEFC&E23 travel award, students must submit a manuscript to ECS Transactions for the PEFC&E-23 symposium (due July 14, 2023), and then email a copy of their manuscript and resume to Dr. Karen Swider Lyons (kswiderlyons@ plugpower.com). Additionally, a total of $3000 in Student Poster Prizes is awarded to posters with the best technical and visual quality, as selected by a technical panel at the conference. Students who submitted abstracts to the PEFC&E-23 symposium and wish to be eligible for a poster award should send a copy of their accepted abstract to Professor Iryna Zenyuk (iryna.zenyuk@uci.edu).

The specific subjects covered by each section are described below

Section A: Diagnostics/Characterization Methods, MEA Design/ Model

Organizers: E. Kjeang, F. N. Büchi, A. Weber, H. Jia, J. Jankovic

Section B: Design, Fabrication and Operation of Cells, Stacks and Systems

Organizers: B. Lakshmanan, C. Rice, K. Swider-Lyons, Y. GonzalezGarcia

Presentations for the design, fabrication, and practical operation of cells, stacks, and systems related to:

1) Hydrogen or hydrogen-reformate fuel cells;

2) Direct-fuel fuel cells (DMFC, borohydride, etc.);

3) Alkaline (membrane) fuel cells;

4) Portable fuel cells;

5) New cell and stack structures, including new types of bipolar plates and flow fields;

6) Degradation of fuel cell components and the influence of degradation products on component and system performance, including corrosion of bipolar plates and BOP, and degradation of sealing materials and other components;

7) Electrochemical hydrogen compression;

8) Balance-of-plant (BOP) components;

9) Design and specifications of complete power systems in the context of transportation and stationary power generation applications as well as for micro-fuel cell systems;

10) Components and systems for other electrochemical energy conversion devices such as electrochemical hydrogen pumps, etc.;

11) Advanced fabrication methods, such as additive manufacturing or reel-to-reel processes.

Section C: Ion-Exchange Membrane and Ionomer Development, Performance, and Durability

Organizers: A. Kusoglu, D. Jones, P. Pintauro, M. Hickner

1) Development of anion- and cation-exchange ionomers and membranes (PFSAs, hydrocarbon-based, etc.) for both fuel cells and electrolzyers;

2) High-temperature polymer membranes, novel hybrid ionomers, and composite membranes;

3) Physico-chemical properties of ionomer membranes and electrode ionomers;

4) Structure-property characterization of ionomer dispersions, membranes, and thin films;

5) Degradation, aging, and stability of membranes (chemical and mechanical);

6) Molecular and multi-scale modeling of membrane properties and ionomer interfaces;

7) Processing, fabrication, and advanced characterization of ionomers;

8) Theory-driven experiment design and data-guided membrane design and development.

12 Call for Papers • 244th ECS Meeting • GOTHENBURG • Sweden • October 8-12, 2023 • www.electrochem.org

Section D: Catalyst Activity/Durability for Hydrogen(-Reformate) Acidic Fuel Cells

Organizers: H. Uchida, P. Strasser, Y.-T. Kim, U. Kramme, K. Kakinuma

Presentations related to acidic fuel cells that discuss:

1) Fuel cell electrocatalysts for hydrogen and hydrogen-reformate fuel cells (PEMFC, PAFC, etc.);

2) Novel catalyst supports;

3) Degradation of fuel cell electrocatalysts and catalyst supports;

4) Ab initio computational studies of catalytic mechanisms and for the design of novel catalysts.

Section E: Materials for Alkaline Fuel Cells and Direct-Fuel Fuel Cells

Organizers: W. Mustain, R. Mantz, D. Dekel

Presentations related to alkaline fuel cells and direct-fuel acid fuel cells that discuss:

1) Electrocatalysts for hydrogen oxidation and oxygen reduction in alkaline fuel cells;

2) Catalysts for direct-borohydride applications;

3) Novel anion-exchange membranes;

4) Degradation mechanisms of anion-exchange membranes;

5) Catalysts for the direct electrooxidation of alternative fuels (e.g., methanol, ethanol, ammonia, etc.) in alkaline and acidic fuel cells.

Section F: Polymer-Electrolyte Electrolysis

Organizers: B. S. Pivovar, H. Xu, C. Capuano, S. Mitsushima

Presentations related to low-temperature, polymer electrolyte water electrolysis for hydrogen and oxygen production (however, excluding approaches that are primarily focused on photoelectrochemical water splitting or CO2 electrochemical reduction):

1) Electrocatalysts for hydrogen reduction and oxygen evolution including performance and durability;

2) Polymers, membranes, and electrodes for electrolysis applications;

3) Transport media and bipolar plates;

4) Balance-of-plant (BOP) components;

5) Degradation of electrolysis components and the influence of degradation products on system performance and lifetime;

6) Design and specifications of complete electrolysis systems in the context of hydrogen generation applications as well as intermittent or load following applications.

Section Z: Plenary session:

Organizer: Karen Swider-Lyons

Invitation only talks on topics related to the sessions above

Researchers may select between an oral or poster contribution. Space for oral presentations is limited, so research groups that submit several abstracts should seek a reasonable balance between oral and poster contributions.

Jankovic, University of Connecticut, email: jasna.jankovic@uconn. edu; Balsu Lakshmanan, Versogen, email: balsu@versogen.com; Ahmet Kusoglu, Lawrence Berkeley National Laboratory, email: akusoglu@lbl.gov; Deborah Jones, Centre National de la Recherche Scientifique, email: Deborah.Jones@umontpellier.fr; Peter N. Pintauro, Vanderbilt University, email: pn.pintauro@vanderbilt.edu; Michael A. Hickner, Pennsylvania State University, email: mah49@psu. edu; Hiroyuki Uchida, University of Yamanashi, email: h-uchida@ yamanashi.ac.jp; Peter Strasser, Technische Universität Berlin, email: pstrasser@tu-berlin.de; Yong-Tae Kim, Pohang University of Science and Technology, email: yongtae@postech.ac.kr; Ulrike I. Kramm, Technische Universität Darmstadt, email: kramm@ese.tu-darmstadt.de; William Earl Mustain, University of South Carolina, email: mustainw@ mailbox.sc.edu; Katsuyoshi Kakinuma, University of Yamanashi, email: kkakinuma@yamanashi.ac.jp; Robert A. Mantz, United States Army Research Office, email: robert.a.mantz.civ@mail.mil; Dario R. Dekel, Technion-Israel Institute of Technology, email: dario@technion. ac.il; Hui Xu, Envision Energy USA , email: hui.xu2@envision-energy. com; Bryan Pivovar, National Renewable Energy Laboratory, email: bryan.pivovar@nrel.gov; Shigenori Mitsushima, Yokohama National University, email: mitsushima-shigenori-hp@ynu.ac.jp; James Fenton, University of Central Florida, email: jfenton@fsec.ucf.edu; Iryna Zenyuk, University of California, Irvine, email: iryna.zenyuk@uci. edu; Christopher B Capuano, Nel Hydrogen, email: Ccapuano@ nelhydrogen.com; Yaiza Gonzalez-Garcia, Technische Universiteit Delft, email: Y.GonzalezGarcia@tudelft.nl; Craig Gittleman, General Motors Holdings LLC, email: craig.gittleman@gm.com.

I02 Photovoltaics for the 21st Century 19: New Materials and Processes Energy Technology Division; Dielectric Science and Technology Division

This symposium provides a forum for the discussion of terawatt-capable solar-to-electrical conversion technologies that have the potential to scale to meet the global energy demand and become an impactful source of energy in the 21st century. To achieve terawatt scale photovoltaics, it is necessary to focus on the scalability and sustainability of photovoltaics. In addition to lowering cost and improving efficiency, research is needed in earth-abundant raw materials, energy-efficient fabrication, recycling of waste solar modules, and storage of intermittent solar electricity. Electrochemical and solid state sciences have major roles to play in removing many of these barriers to terawatt solar photovoltaics. This symposium invites contributions in current and emerging areas of solar photovoltaic research and covers a whole spectrum of cell technologies from silicon to thin films and emerging technologies.

Sample topics of interest include, but are not limited to:

1) Scalable and green solution-based processing technologies for solar cells;

2) Emerging perovskite, organic, quantum dot, and hybrid solar cells;

3) Devices and materials for scalable manufacturing, stability, and performance;

4) Earth-abundant solar materials: Synthesis and properties;

5) Device degradation and reliability for current and future solar modules;

6) Cost-effective approaches to recycle current and future waste solar modules;

7) Sustainable practices of waste treatment in solar cell and module fabrication processes;

8) Innovative applications and systems that match the characteristics of solar energy.

Invited speakers from industry and academia provide an overview on the current status and explore future directions of solar photovoltaics. This symposium’s proceedings will be published in ECS Transactions and available at the meeting. Authors accepted for presentation are strongly encouraged to submit their full text manuscript no later than July 14, 2023. Submit all manuscripts online in either MS Word or PDF format.

13 Call for Papers • 244th ECS Meeting • GOTHENBURG • Sweden • October 8-12, 2023 • www.electrochem.org

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Thad Druffel, University of Louisville, email: thad.druffel@louisville.edu; Meng Tao, Arizona State University, email: meng.tao@asu.edu; Hiroki Hamada, Kindai University, email: h.hamada@ele.kindai.ac.jp; Zhi Chen, University of Kentucky, email: zhichen@engr.uky.edu.

I03

High Temperature Corrosion and Materials Chemistry 15

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

Celebrating its 15th offering, this legacy symposium focuses on the fundamental thermodynamic and kinetic aspects of high-temperature oxidation and corrosion, as well as other chemical reactions involving inorganic materials at high temperatures. Both theoretical and experimental papers are accepted, with industry and student contributions especially encouraged. Specifically, presentations on the following topics in the areas of oxidation/corrosion are solicited: fundamental mechanisms of high temperature oxidation; reactions in complex environments and/or ultra-high temperatures (>1500°C); and response of protective coatings in these environments. In the area of high-temperature chemistry, papers on the following topics are solicited: thermodynamics property determination; phase equilibria and phase transformations; solid state diffusion; and volatilization or condensation reactions. Fundamental and applied studies of materials interactions in high temperature chemical processing or power and propulsion applications are also welcome.

I04

Ionic and Mixed Conducting Ceramics 14

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

Materials that exhibit fast ionic transport or significant levels of concurrent ionic and electronic conduction are of great interest among worldwide researchers and developers of technologies including fuel cells, batteries, sensors, membranes, electrochemical reactors, and electrosynthesis. This symposium provides a forum to share experimental data and theoretical and simulation studies, and discuss research activities and needs in this exciting field. Both fundamental materials and applied technologies related to ionic transport and mixed conduction are presented. Some specific topics include: ionic transport in solid electrolytes; advances in protonic conductors; lattice strain effects in transport and catalysis; electrolyzers for electrochemical fuel synthesis; fuel cells and batteries; mechanisms of mixed conduction in ceramics; role of microstructure in conduction; dense ceramic membranes for gas separation and production of chemicals; electrocatalytic phenomena; ceramic sensors; electrochemistry of nanoceramics and transport in corrosion-resistant ceramic films.

Swider-Lyons, Plug Power Inc, email: kswiderlyons@plugpower.com; Y. Shirley Meng, University of Chicago, email: shirleymeng@uchicago. edu.

I05 Photocatalysts, Photoelectrochemical Cells, and Solar Fuels 13 Energy Technology Division; Industrial Electrochemistry and Electrochemical Engineering Division; Physical and Analytical Electrochemistry Division; Sensor Division

This symposium provides an international and interdisciplinary forum to present the latest research on photocatalysts, photoelectrochemical cells, and solar fuels. Topics of interest include, but are not limited to:

1) Photocatalysts or photoelectrochemical cells;

2) Synthesis and characterization of solar energy materials;

3) Plasmonic nanostructures for solar energy devices;

4) Solar thermal panels and solar reactors;

5) Structures and devices for water splitting;

6) Electrocatalysts for hydrogen evolution reaction (HER), oxygen evolution reaction (OER), carbon dioxide reduction, and nitrogen fixation;

7) Capture or conversion of carbon dioxide to fuels;

8) Conversion of renewable energy resources to fuels (hydrogen, ethanol, methanol, ammonia, and other fuels);

9) Photocatalytic disinfection and environmental remediation;

10) Fundamental studies on charge dynamics or surface reactions in semiconductors or molecules using modern analytical techniques such as x-ray and ultrafast laser spectroscopy;

11) Simulation and modeling of materials, interfaces, devices, and systems for solar energy applications;

12) Corrosion and durability of solar energy materials and devices.

This symposium’s proceedings will be published in ECS Transactions and available at the meeting. Authors accepted for presentation are strongly encouraged to submit their full text manuscript no later than July 14, 2023. Submit all manuscripts online in either MS Word or PDF format. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Nianqiang Wu, University of Massachusetts Amherst, email: nianqiangwu@umass.edu; Vaidyanathan Ravi Subramanian, University of Nevada, Reno, email: ravisv@ unr.edu; Heli Wang, Phillips 66, email: heli.wang@p66.com; Pawel Kulesza, Uniwersytet Warszawsk, email: pkulesza@chem.uw.edu. pl; Jae-Joon Lee, Dongguk University, email: jjlee@dongguk.edu; Eric Miller, United States Department of Energy, email: Eric.Miller@ ee.doe.gov; Ayyakkannu Manivannan, Global Pragmatic Materials, email: manigpm1@outlook.com; Gary Phillip Wiederrecht, Center for Nanoscale Materials, Argonne National Laboratory, email: wiederrecht@ anl.gov; Dongling Ma, Université du Québec, email: dongling.ma@ inrs.ca; Tsutomu Minegishi, The University of Tokyo, email: tmine@g. ecc.u-tokyo.ac.jp; Paul J. A. Kenis, University of Illinois at UrbanaChampaign, email: kenis@illinois.edu; John Staser, Ohio University, email: staser@ohio.edu; Fikile Richard Brushett, Massachusetts Institute of Technology, email: brushett@mit.edu.

I06 Crosscutting Materials Innovation for Transformational Chemical and Electrochemical Energy Conversion Technologies 5

Energy Technology Division;

High-Temperature Energy, Materials, & Processes Division; Industrial Electrochemistry and Electrochemical Engineering Division

In 2016, the United States Department of Energy launched the Energy Materials Network (EMN) to accelerate the process of materials discovery, development, and ultimate deployment in major clean energy sectors. Innovations in clean energy technologies are vital to domestic energy security and economic growth. Consistent with the EMN vision, moving transformational energy technologies forward requires an honest discussion of the challenges and opportunities in critical materials

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R&D. An integrated approach spanning materials design and synthesis through process scale-up and qualification is essential to this effort. This symposium brings together materials experts and stakeholders from multiple sectors covered in the current EMN portfolio. This includes world-class leaders with multi-physics and multi-scale expertise from the EMNs as well as leaders of other high impact materials initiatives in chemical and electrochemical systems for clean energy applications. Some common material challenges across all EMNs include interfaces, corrosion, performance, benchmarking, analysis, and computational modeling. It is expected that crosscutting conversations at this session foster synergy for future collaborations.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Huyen Dinh, National Renewable Energy Laboratory, email: huyen.dinh@nrel.gov; Eric Miller, United States Department of Energy, email: Eric.Miller@ee.doe.gov; Sanjeev Mukerjee, Northeastern University, email: s.mukerjee@northeastern. edu; Karel Bouzek, Vysoká škola chemicko-technologická v Praz, email: Karel.Bouzek@vscht.cz; Saket Bhargava, Dow Chemical Company, email: saketbhargava1994@gmail.com; Sean R. Bishop, Sandia National Laboratories, email: srbisho@sandia.gov.

J—Luminescence and Display Materials, Devices, and Processing

J01

Luminescence and Display Materials: Fundamentals and Applications

Luminescence and Display Materials Division

This inter- and cross-disciplinary meeting brings together high-ranking specialists and young researchers from academia and related industries. Both theoretical and experimental advanced and up-to-date research are presented to start discussions on the needs and prospects of the novel and emerging research and technologies related to luminescence and display materials. An in-depth understanding of the physics behind luminescence processes and methods to design new materials of expected properties is at the core of the presentations and discussions. A 90-minute “roundtable” discussion is devoted to the subject of what luminescence research can and should offer society.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Eugeniusz Zych, Uniwersytet Wroclawski, email: eugeniusz.zych@chem.uni.wroc.pl; Won Bin Im, Hanyang University, email: imwonbin@hanyang.ac.kr; Rong-Jun Xie, Xiamen University, email: rjxie@xmu.edu.cn; Jakoah Brgoch, University of Houston, email: jbrgoch@central.uh.edu; Zhiguo Xia, South China University of Technology, email: xiazg@scut.edu.cn; Kailash Mishra, Osram Sylvania (retired), email: kailash5652@gmail. com; Andries Meijerink, Universiteit Utrecht, email: A.Meijerink@ uu.nl; Mikhail Brik, Tartu Ülikool, email: mikhail.brik@ut.ee; Alok Srivastava, Current Chemicals, email: srivastaam@outlook.com; John Collins, Wheaton College, email: jcollins@wheatonma.edu.

K—Organic and Bioelectrochemistry

K01 Advances in Organic and Biological Electrochemistry

Organic and Biological Electrochemistry Division; Energy Technology Division; Physical and Analytical Electrochemistry Division

Contributions are solicited in all areas of organic and biological electrochemistry. Synthetic, biological, and mechanistic organic electrochemical research is of particular interest, as well as papers dealing with catalytic aspects of electrosynthesis. Additionally, we seek contributions in the areas of biophysical and biochemical electrochemistry.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Robert Francke, Universität Rostock, email: robert.francke@uni-rostock.de; Kevin Moeller, Washington University in St. Louis, email: moeller@wustl.edu; Jeffrey Halpern, University of New Hampshire, email: jeffrey.halpern@unh. edu; 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; Plamen B. Atanassov, University of California, Irvine, email: plamen.atanassov@ uci.edu.

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 areas, all papers concerning any aspect of physical electrochemistry, analytical electrochemistry, electrocatalysis, and photoelectrochemistry which are not covered by topic areas of other specialized symposia offered at this meeting are welcome in this symposium. Contributed papers are programmed in some related order depending on the titles and contents of the submitted abstracts.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Stephen Paddison, University of Tennessee, Knoxville, email: spaddiso@utk.edu; Anne Co, Ohio State University, email: co@chemistry.ohio-state.edu.

L02 Electrode Processes 14

Physical and Analytical Electrochemistry Division; Energy Technology Division

This symposium provides an international and interdisciplinary forum on the fundamental and applied aspects of electrode processes. Topics of interest include: novel electrode processes that may lead to new technologies or unique materials; well-ordered systems (structure, adsorbates, and deposits on single-crystal surfaces); properties of electrodeposits, nanometer-scale structures, theory, modeling; dynamics, thermodynamics, heterogeneous reactions, e.g., inorganic and organic

15 Call for Papers • 244th ECS Meeting • GOTHENBURG • Sweden • October 8-12, 2023 • www.electrochem.org

electrocatalysis; industrial processes, fuel cells, and batteries. The symposium includes both invited and contributed papers on all facets of the chemistry, physics, physical chemistry, and electrochemistry of electrode processes.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Andrew C. Hillier, Iowa State University, email: hillier@iastate.edu; Samaneh Shahgaldi, Université du Québec à Trois-Rivières, email: samaneh.shahgaldi@uqtr.ca.

L03 Advanced Techniques for In Situ Electrochemical Systems 6 Physical and Analytical Electrochemistry Division; Energy Technology Division

In situ 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 in situ characterization of electrochemical systems. Solicitation topics include, but are not limited to, various electroanalytical methods and in situ spectroscopy, spectrometry, and microscopy techniques. Of special interest are papers focused on synchrotron-based techniques for characterization of electroactive materials and electrochemical devices.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Svitlana Pylypenko, Colorado School of Mines, email: spylypen@mines.edu; Anne Co, Ohio State University, email: co@chemistry.ohio-state.edu; Minhua Shao, The Hong Kong University of Science and Technology, email: kemshao@ust. hk; Iryna Zenyuk, Lawrence Berkeley National Laboratory, email: iryna. zenyuk@uci.edu; Samaneh Shahgaldi, Université du Québec à TroisRivières, email: samaneh.shahgaldi@uqtr.ca.

L04 Physical and Analytical Electrochemistry in Ionic Liquids 6 Physical and Analytical Electrochemistry Division; Electrodeposition Division; Energy Technology Division

This symposium provides an international and interdisciplinary forum to present the latest research on systems involving molten salts and ionic liquids. Papers on basic and applied research in all areas of chemistry, engineering, electrochemical systems, and physics related to molten salts and ionic liquids are solicited. The topics include, but are not restricted to:

1) Power and energy applications (e.g., batteries, fuel cells, semiconductors, photovoltaics, and phase change energy storage);

2) Rare earth and nuclear chemistry (e.g., lanthanides, actinides, radioisotopes, nuclear reprocessing);

3) Electrodeposition (e.g., deposition of alloys, characterization of electroactive species, and surface characterization);

4) Reactions (e.g., catalysis, synthesis, oligomerizations, and polymerizations);

5) Separations (e.g., selective extractions and biphasic systems);

6) Solute and solvent properties (e.g., structural investigations, thermal properties, dynamics, and stability of ionic liquids and molten salts);

7) Biomass applications (e.g., dissolution, modification, and/or reactions utilizing biomass);

8) Materials (e.g., polymer blends, additive manufacturing, active coatings, and corrosion studies);

9) New ionic liquids and molten salt mixtures (e.g., liquid clathrates, binary and ternary melts, and task specific ionic liquids);

10) Deep eutectic solvents (e.g., synthesis, properties, and applications).

In addition, papers are encouraged for a special session honoring the 2022 recipient of the Max Bredig Award, Prof. Thomas Welton.

Invited speakers present keynote lectures. A poster session is planned. Student participation is highly encouraged. It is anticipated that some funds will be available for student and young scientist support.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Paul Chappell Trulove, United States Naval Academy, email: trulove@usna.edu; Robert A. Mantz, United States Army Research Office, email: robert.a.mantz.civ@mail. mil; Vito Di Noto, Università degli Studi di Padova, email: vito.dinoto@ unipd.it; Natalie Macauley, Giner, Inc., email: nmacauley@ginerinc. com; Adriana Ispas, Technische Universität Ilmenau, email: adriana. ispas@tu-ilmenau.de.

L05 Scanning Probe Microscopy 3 Physical and Analytical Electrochemistry Division

Over the past several decades, scanning probe microscopy methods, such as scanning tunneling (STM), atomic force (AFM), and scanning electrochemical microscopy (SECM), have proven to be unique tools for characterizing solid/liquid interfaces from the micro to cellular to nano scale. These techniques, as well as combinations and spectroscopy based on these local probes, have guided fundamental advances in many areas of electrochemistry, including self-assembly, electrodeposition, corrosion or adsorption of ionic and molecular species, by providing invaluable structural, morphological, and electronic information. The contribution of scanning probe microscopy to electrochemistry is continuing and has expanded to more complex systems, to include living systems, while refinement to the hardware and software allows for improvements in spatial and temporal resolution on a quasi-routine basis. This symposium focuses on:

1) Applications of in situ scanning tunneling microscopy and spectroscopy to gain new insights into the molecular scale structure of the electrochemical double layer and adsorbed layers;

2) Microscopic studies of the atomic or molecular dynamics at interfaces under equilibrium conditions and during electrochemical reactions;

3) Novel experimental developments in in situ scanning probe microscopy and spectroscopy including improvements in instrumentation and application to living systems;

4) Theoretical and computational approaches to further the understanding of in situ imaging and spectroscopy.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: David Cliffel, Vanderbilt University, email: d.cliffel@vanderbilt.edu; Andrew C. Hillier, Iowa State University, email: hillier@iastate.edu.

16 Call for Papers • 244th ECS Meeting • GOTHENBURG • Sweden • October 8-12, 2023 • www.electrochem.org

L06

Electrochemical Waste Remediation 2 Physical and Analytical Electrochemistry Division; Dielectric Science and Technology Division; Energy Technology Division; Industrial Electrochemistry and Electrochemical Engineering Division

This symposium focuses on all electrochemical methods for waste remediation, as well as electrochemical methods for monitoring waste remediation. This includes methods of electro-coagulation, electroocculation, electrodeposition, electrochemical direct oxidation, indirect oxidation, and microbial fuel cells, as well as any novel electrochemical advanced oxidation methods. Both fundamental and applicationdriven talks are encouraged. This symposium also includes talks on electroanalytical methods, sensors, and biosensors for monitoring wastewater remediation.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Shelley D. Minteer, Center for Synthetic Organic Electrochemistry, University of Utah, email: minteer@ chem.utah.edu; Alanah Fitch, Loyola University, email: afitch@luc. edu; Shiqiang Zou, Auburn University, email: shiqiang@auburn.edu; Chockkalingam Karuppaiah, Vetri Labs, email: chock.karuppaiah@ vetrilabs.com; Plamen B. Atanassov, University of California, Irvine, email: plamen.atanassov@uci.edu.

L07 Nanoscale Electrochemistry Physical and Analytical Electrochemistry Division; Energy Technology Division

The symposium covers all aspects of electrochemistry at nanoscale from nano-structured and nanoporous materials; structure of double layer and electrokinetic phenomena at nano-interfaces; electrochemical processes in nano-confined spaces; and functional materials at nanoscale, including nano-catalysts, nano-cluster catalysis and nano-zymes and bio-inspired materials for electrocatalysis. The symposium invites papers on new developments on synthesis and electrochemical evaluation of nanomaterials as well as experimental approaches of studying the phenomena occurring at electrified interfaces at nanoscale or in nano-confined electrolytes. The symposium also invites papers in which nanostructured materials and interfaces are being integrated in electrochemical devices, which benefit from or display the specific properties that arise from the nanoscale features.

Invited speakers present keynote lectures.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Jian Xie, Indiana University–Purdue University of Indianapolis, email: jianxie@iupui.edu; Vito Di Noto, Università degli Studi di Padova, email: vito.dinoto@unipd.it; Peter Pintauro, Vanderbilt University, email: pn.pintauro@vanderbilt. edu; David Cliffel, Vanderbilt University, email: d.cliffel@vanderbilt.edu.

L08

Nanostructured Metal Oxides and Polyoxometallate Clusters in Electrocatalysis, Electrochemical Energy Conversion, and Storage

Physical and Analytical Electrochemistry Division; Dielectric Science and Technology Division

The symposium provides an interdisciplinary forum for exchange of ideas and discussion of new results and crucial achievements related to fundamental and applied aspects of utilization of nanostructured

metal oxides, as well as simple, derivatized, and functionalized polyoxomatallates considered as supports, carriers or active components of electrocatalytic systems for low-temperature fuel cells, and devices for (photo)electrochemical water splitting, reduction of carbon dioxide, inert reactants or efficient pseudocapacitive or battery-type electrochemical charging-discharging. We hope to bring together researchers in different areas of inorganic chemistry and materials chemistry as well as electrochemical science and technology with the intent to discuss the current state of the art in understanding the link between fundamental processes and resulting properties of the polyoxometallate and metal oxide based systems.

Contributions are sought, but not limited to papers investigating electrochemical properties leading to better understanding of the systems’ physicochemical properties and reaction mechanisms. Both experimental and theoretical papers, as well as contributions involving simulations and DFT calculations, are welcome. Additional specific areas to be covered include design of cathode and anode materials, new preparative and processing approaches, fabrication of advanced and functionalized materials, as well as electrode characterization using in situ and ex situ methods.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Paweł Kulesza, Uniwersytet Warszawski, email: pkulesza@chem.uw.edu.pl; Iwona Rutkowska, Uniwersytet Warszawski, email: ilinek@chem.uw.edu.pl; Nianqiang Wu, University of Massachusetts Amherst, email: nianqiangwu@umass. edu; Andrew Herring, Colorado School of Mines, email: aherring@ Mines.EDU; Vito Di Noto, Università degli Studi di Padova, email: vito. dinoto@unipd.it; Csaba Janaky, Szegedi Tudományegyetem, email: janaky@chem.u-szeged.hu; Krishnan Rajeshwar, The University of Texas, email: rajeshwar@uta.edu .

L09 Physical and Electrochemical Processes at Flow Battery Electrodes

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

Redox flow batteries have been recognized as an important prospective technology for stationary energy storage, including grid-scale energy storage, thanks to their flexible design, ease of independently scaling energy and power, and potentially simpler manufacture of large-scale systems. The all-vanadium redox flow battery is probably the most common commercial system at present, but others are also being developed and there is much research on proposed redox couples for future systems including both inorganic and organic electroactive systems in aqueous and non-aqueous electrolytes.

This symposium seeks oral and poster presentations on advances in science and technology relating to electrodes for flow batteries. In particular, it addresses novel materials, electrode structures, technology, and designs, as well as issues related to electrochemistry, chemistry or physics of the electrodes and the electrode-solution interface. Special attention is paid to characterization and fundamental understanding of newly synthesized, modified or novel redox active compounds and electrode materials.

Topics of interest include, but are not limited to:

• Characterization of the effects of thermal, chemical, and electrochemical treatments of carbon felts, carbon papers, and other electrode materials for flow batteries;

• Novel redox systems and their electrode kinetics;

• Novel electrode materials and electrode treatments;

• Kinetics of electrode reactions of redox couples for present and future flow batteries;

• Effect of electrode materials and electrode pretreatment on kinetics;

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• Mechanisms of electrochemical reactions for redox couples used in flow batteries;

• Characterization and properties of electrode materials (e.g., electrocatalytic properties, hydrophilicity, electrochemically active surface area, surface functional groups, etc.);

• Parasitic electrode reactions (such as hydrogen evolution) and their effects on flow battery performance;

• Corrosion and long-term degradation of flow battery electrodes and associated bipolar plates.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Petr Vanýsek, Northern Illinois University, email: pvanysek@gmail.com; D. Noel Buckley, University of Limerick, email: Noel.Buckley@ul.ie; Joaquín Rodríguez-López, University of Illinois at Urbana-Champaign, email: joaquinr@illinois.edu; S. R. Narayan, University of Southern California, email: sri.narayan@ usc.edu; Thomas A. Zawodzinski, University of Tennessee, Knoxville, email: tzawodzi@utk.edu; Shrihari Sankarasubramanian, The University of Texas at San Antonio, email: shrihari.sankarasubramanian@ utsa.edu; Mike L. Perry, Largo Clean Energy, email: mikeleeperryct@ gmail.com.

L10 Interfacial Analysis for Energy Storage Physical and Analytical Electrochemistry Division; Battery Division

For electrochemical energy storage systems such as batteries, (pseudo-) capacitors, and other emerging storage devices, the gas/solid, liquid/ solid, and solid/solid interfaces are critical nexuses where many important physical and chemical processes take place. For example, the formation of the solid-electrolyte interphase (SEI) is one kind of electrochemical deposition at the electrode surface. How the SEI is formed and what it is composed of are strongly related to battery performance and safety (e.g., dendrite formation at lithium metal anode). Electrode/electrolyte interfaces usually experience transformations during battery chargedischarge cycling, resulting in changes in cycle life and energy capacity. Similarly, the interfacial couplings and reactions between electrodes and solid electrolytes dictate the operation and performance of solid state batteries in distinct ways. Analysis of such interfacial processes provides critical information for materials design and operational improvements for numerous energy storage systems. Examining the methodology used for diagnosis of interfacial (heterogeneous) charge transfer processes is also key to understanding the involved chemistries.

This symposium seeks oral and poster presentations on advanced methodology, innovative structure design, and research frontiers on interfacial analysis for energy storage. Addressing the pressing opportunities and challenges in these directions will help bridge expertise in academic research to industrial processes in energy devices. The technologies and topics of interest include, but are not limited to:

1) Control of electrochemical deposition for energy storage applications;

2) Single crystal, thin film, and substrate supported model systems for energy storage interfaces and interphases;

3) Interfacial electrochemistry-induced phase transformations and degradation processes in battery, capacitor, and other related devices;

4) Fundamental experimental and theoretical investigations of electrode/electrolyte interfaces (e.g., solid/liquid, and solid/solid) for energy storage and electrocatalysis related to energy storage processes;

5) Analytical, in situ, and operando characterizations of electrochemical interfacial processes, including those on buried interphases, related to energy 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 symposium organizers: Joaquín Rodríguez-López, University of Illinois at Urbana-Champaign, email: joaquinr@illinois. edu; Zhenxing Feng, Oregon State University, email: zhenxing.feng@ oregonstate.edu; Pawel Kulesza, Uniwersytet Warszawski, email: pkulesza@chem.uw.edu.pl; Ling Fei, University of Louisiana at Lafayette, email: ling.fei@louisiana.edu; Y. Shirley Meng, University of Chicago, email: shmeng@ucsd.edu.

L11 Everything Voltammetry – Pulsed, Stepped, and Other Waveforms Physical and Analytical Electrochemistry Division

This symposium provides an international and interdisciplinary forum to present the latest research on development, modeling, and use of pulsed electroanalytical techniques. The topics include, but are not restricted to:

1) Power and energy applications;

2) Analytical applications;

3) Pulsed voltammetry techniques (square wave, normal pulse, differential pulse, reverse pulse, etc.);

4) Pulsed coulometry techniques;

5) Pulsed amperometry techniques.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to the symposium organizers: Robert A. Mantz, United States Army Research Office, email: robert.a.mantz.civ@mail.mil; Paul Chappell Trulove, United States Naval Academy, email: trulove@usna. edu.

M—Sensors

M01 Recent Advances in Sensors Systems 4 Sensor Division; Dielectric Science and Technology Division

This symposium will prove 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:

1) 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.

18 Call for Papers • 244th ECS Meeting • GOTHENBURG • Sweden • October 8-12, 2023 • www.electrochem.org

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.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Jessica Koehne, NASA Ames Research Center, email: jessica.e.koehne@nasa.gov; Peter Hesketh, Georgia Institute of Technology, email: peter.hesketh@me.gatech.edu; Sheikh Akbar, Ohio State University, email: akbar.1@osu.edu; Gary W. Hunter, NASA Glenn Research Center, email: gary.w.hunter@nasa. gov; Rangachary Mukundan, Lawrence Berkeley National Laboratory, email: rmukundan@lbl.gov; Dongmei Dong, Florida International University, email: ddong@fiu.edu; Thiagarajan Soundappan, Navajo Technical University, email: tsoundappan@navajotech.edu; A. Robert Hillman, University of Leicester, email: arh7@le.ac.uk.

M02

Biosensors, Lab-on-chips, Point-of-care Testing, In Vitro, and In Vivo Imaging 2 Sensor Division

Currently, medical diagnostics are often based on expensive lab-based large-scale analytical instruments. Sensors and lab-on-chip devices are under development for rapid, inexpensive, and field-deployable detection and diagnosis. This symposium focuses on sensors for improving the health and wellbeing of individuals. The scope includes, but is not limited to:

1) Sensors using antibodies nucleic acid and small molecules as molecular recognition probes;

2) Sensors using nanostructures to improve performance;

3) Wearable devices;

4) Point-of-care detection tools;

5) Lab-on-chips for healthcare;

6) In vitro and in vivo imaging techniques;

7) Theranostics and related sensing and imaging techniques;

8) Materials, devices, and fabrication techniques, which have potential applications in food safety, biomedical, and health applications.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Nianqiang Wu, University of Massachusetts Amherst, email: nianqiangwu@umass.edu; Leyla Soleymani, McMaster University, email: soleyml@mcmaster.ca; Aida Ebrahimi, Pennsylvania State University, email: sue66@psu.edu;

Larry A. Nagahara, Johns Hopkins University, email: larry.nagahara@ jhu.edu; Silvana Andreescu, Clarkson University, email: eandrees@ clarkson.edu; Guobao Xu, Changchun Institute of Applied Chemistry, Chinese Academy of Sciences, email: guobaoxu@ciac.ac.cn; Fiorenzo Vetrone, Université du Québec, email: vetrone@emt.inrs.ca; Harshini Mukundan, Los Alamos National Laboratory, email: harshini@lanl.gov; Ajit Khosla, Yamagata University, email: khosla@gmail.com.

Z—General

Z01 General Student Poster Session All Divisions

This poster session provides a forum for graduate and undergraduate students to present research results of general interest to ECS. The purpose of this session 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. Society members judge the posters entered into this session. Presenting student authors of the top three overall posters receive cash prizes; the amounts awarded are at the organizers and judges’ discretion.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Alice Suroviec, Berry College, email: asuroviec@berry.edu; Venkat R. Subramanian, The University of Texas at Austin, email: venkat.subramanian@utexas.edu.

Z02 Electrochemistry in Space 3

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

Recent deployment of electrochemical devices in space, such as on the International Space Station and on Mars-based rovers, has highlighted the potential for using electrochemical processes and devices for critical space functions such as life support, in situ resource utilization, and vital probes for extraterrestrial exploration. The uniqueness of extraterrestrial environments such as microgravity, extreme temperatures, and the usual need for autonomous operation raises both fundamental questions about electrochemical processes and application challenges for device design. Electrochemical power with robust fuel cells, energy storage with batteries, and electrolyzers for production of metals, fuel, and oxygen production presents promise for increasing the viability of selfsustaining spaced based activities. This symposium invites researchers and developers to present recent advances in electrochemistry in and for space applications in a wide array of topics including, but not limited to the following:

• Fundamental impacts of extraterrestrial environments on electrochemical processes;

• In situ resource utilization through conversion of lunar, Martian, and asteroid materials into propellants, clean water, oxygen, and structural or functional materials/devices;

• Electrochemical power sources to survive harsh environments of space;

• Energy storage for power management in various extraterrestrial environments;

• Sensors for chemical and radiation detection, and for environmental and human health monitoring in space applications;

• Electrochemical processes for environmental controls in extraterrestrial environments.

19 Call for Papers • 244th ECS Meeting • GOTHENBURG • Sweden • October 8-12, 2023 • www.electrochem.org

This interdisciplinary symposium brings together speakers from across a broad range of disciplines to discuss advances in research and development for electrochemistry in space. This symposium also addresses how extraterrestrial environments impact electrochemical processes as well as component design and operation. We want to facilitate broad interdisciplinary conversations through this symposium.

This symposium’s proceedings will be published in ECS Transactions and available at the meeting. Authors accepted for presentation are strongly encouraged to submit their full text manuscript no later than July 14, 2023. Submit all manuscripts online in either MS Word or PDF format. Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: Greg S. Jackson, Colorado School of Mines, email: gsjackso@mines.edu; Santosh Vijapur, Faraday Technology, Inc., email: santoshvijapur@faradaytechnology.com; E. Jennings Taylor, Faraday Strategies LLC, email: ejenningstaylor@ gmail.com; Jessica Koehne, NASA Ames Research Center, email: jessica.e.koehne@nasa.gov; Yasuhiro Fukunaka, Kyoto University, email: hirofukunaka@gmail.com; Scott A. Calabrese Barton, Michigan State University, email: scb@msu.edu; Gary W Hunter, NASA Glenn Research Center, email: gary.w.hunter@nasa.gov; Marshall C. Smart, Jet Propulsion Laboratory, email: marshall.c.smart@jpl.nasa.gov.

Z03 Young Researchers in Europe: A Special Symposium and Workshop All Divisions, ECS Europe Section

The ECS Europe Section is organizing a special daylong event aimed at early career professionals in electrochemistry and materials science hailing from the geographical region of Europe. The purpose is to

facilitate connections between scientists and engineers in the field; introduce calls for research grants, in particular those requiring teams from several countries; allow time in between presentations to learn about participants’ research and projects; and communicate similarities, differences, concerns, and anxieties in seeking to do research across the countries of Europe.

Several keynote speakers are invited, in particular representing grant institutions or international research consortia. These experts are available during deliberately planned extended coffee breaks. While it is assumed that participants at the symposium choose other symposia in their own technical interest area for their full papers, informal opportunity is offered to young and early career researchers during the workshop period to highlight their own work in two- to three-minute “elevator speeches.” Young and early career participation is suggested to mean 35 years or younger OR within five years of embarking onto a new topic or career track. When submitting to other 244th ECS Meeting symposia, please indicate your desire to be included for consideration in Z03 as well.

The ECS Europe Section holds its traditional reception on one of the meeting evenings. All symposium and workshop participants are invited to attend.

Submit abstracts electronically to ECS headquarters. Send questions and inquiries to symposium organizers: D. Noel Buckley, University of Limerick, email: noel.buckley@ul.ie; Ingrid Milosev, Jožef Stefan Institute, email: ingrid.milosev@ijs.si; Petr Vanysek, Brno Technical University, email: vanysek@vut.cz.

20 Call for Papers • 244th ECS Meeting • GOTHENBURG • Sweden • October 8-12, 2023 • www.electrochem.org

SAVE THE DATE www.electrochem.org/upcoming-meetings 245th ECS Meeting

FRANCISCO, CA

26-30, 2024

Marquis San Francisco

SAN

May

Marriot

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.

For more information regarding symposium sponsorship, please contact sponsorship@electrochem.org

21 Call for Papers • 244th ECS Meeting • GOTHENBURG • Sweden • October 8-12, 2023 • www.electrochem.org

PLATINUM $22,500* GOLD $15,000* SILVER $7,500* BRONZE $ 3,750* CONTRIBUTING $2,250* Brand exposure

Exhibitor

program,

and signage Full logo hyperlinked to website Full logo hyperlinked to website Full logo hyperlinked to website Full logo hyperlinked to website Organization name Recognition and special thanks from the symposium podium a a a a n/a Recognition in emails to funding recipients a a a n/a n/a Your logo featured as the screen saver on symposium room computers Full-color logo Full-color logo Full-color logo Organization name Organization name Free ad in meeting advertising Full page ½ page ¼ page n/a n/a Recognition in that symposium's ECS Transactions proceedings volume (Deadlines apply; not all symposia publish ECST) Full-color logo Full-color logo Full-color logo Full-color logo Organization name Complimentary meeting registration 2 1 0 0 0 Literature display in symposium room a Can be added for $250 Can be added for $350 Can be added for $500 Can be added for $750

on the Digital

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online

website,