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Meeting 2022 TMS Annual Meeting & Exhibition
Symposium Advanced Materials for Energy Conversion and Storage 2022
Sponsorship TMS Functional Materials Division
TMS: Energy Conversion and Storage Committee
Organizer(s) Jung Pyung Choi, Pacific Northwest National Laboratory
Soumendra Basu, Boston University
Paul R. Ohodnicki, University of Pittsburgh
Partha P. Mukherjee, Purdue University
Surojit Gupta, University of North Dakota
Amit Pandey, Lockheed Martin Space
Kyle S. Brinkman, Clemson University
Scope Organizer: Jung Pyung Choi, Pacific Northwest National Laboratory,

Sponsor: Energy Conversion and Storage Committee (FMD)
Co-Sponsor: High-Temperature Alloys Committee (SMD), Corrosion & Environmental Effects Committee (SMD)

Theme 1: Energy Conversion
i. Prof. Soumendra Basu, Boston University, (Lead)
iii. Prof. Xingbo Liu, West Virginia University,
iv. Prof. Kyle S Brinkman, Clemson Univ.,
v. Dr. Jung Pyung Choi, Pacific Northwest National Laboratory,
vi. Prof. Prabhakar Singh, Univ. of Connecticut,
vii. Dr. Amit Pandey, Lockheed Martin Space,

Focus area: These focus area topics include, but not limited to, experiments and modeling of energy conversion systems, including:
• SOFCs and reversible SOFCs/SOECs
• PEM fuel cells
• The durability of the fuel cell and stack materials
• Degradation due to thermo-mechanical-chemical effects
• Effect of microstructure evolution on the properties and efficiency
• Chromium poisoning from interconnections and Balance of Plant
• Advances in characterization and modeling techniques for energy generation systems

Theme 2: Energy Storage
i. Prof. Partha P. Mukherjee, Purdue University, (Lead)
ii. Prof. Eric Detsi, University of Pennsylvania,
iii. Prof. George Nelson, University of Alabama in Huntsville,
iv. Prof. Leela Arava, Wayne State University,

Focus area:
• Batteries
• Physicochemical Interaction in intercalation, conversion, and metal batteries, e.g., lithium-ion, solid-state, Na-ion, Li-S, Li-air
• Electrode microstructure - property - performance interplay
• Mesoscale modeling and characterization (e.g., X-ray tomography)
• Degradation (e.g., mechanical, chemical, electrodeposition) and safety characteristics in electrodes

Theme 3: Materials Design for Sustainability and Energy Harvesting
i. Prof. Surojit Gupta, University of North Dakota, (Lead)
ii. Prof. Matt Cavalli, Western Michigan University,
iii. Prof. Sankha Banerjee, California State University,
iv. Prof. Manoj Kumar Mahapatra, University of Alabama,
v. Prof. Lan Li, Boise State University,
vi. Dr. Luca Masi, Ansys Granta,

Focus area: This component of the symposium will focus on various green and sustainable technologies for energy harvesting, additive manufacturing, green tribology, next-generation products and processes, and development of advanced instrumentation and control systems, etc.
Proposed Session Topics
• Solar Energy
• Wind Energy
• supercapacitor
• Additive manufacturing, 3D printing, and sustainability
• Green Tribology
• Life cycle analysis of materials and products

Theme 4- Functional Materials including coating, Ceramics, and Alloys
i. Dr. Jung Pyung Choi, Pacific Northwest National Laboratory, (Lead)
ii. Dr. Paul Ohodnicki, University of Pittsburgh,
iii. Prof. Soumendra Basu, Boston University,

Focus area:
• Functional Oxides, Nitrides, and Carbides
• Ceramics and Dielectrics
• Sensors
• Thermal Energy Harvesting, Conversion, and Management Devices
• Functional Coatings for Harsh Environments
• Nanotechnology and Multifunctional Materials
• Membrane Separation Materials, Processes, and Systems (H2, O2, CO2)
• Water Splitting and Other Catalyst Applications
• In-Situ Spectroscopy and Advanced Characterization of Functional Materials
• Harsh Environment Electromagnetic Materials

This symposium intends to provide a forum for researchers from national laboratories, universities, and industry to discuss the current understanding of materials science issues in advanced materials for energy conversion and storage include high-temperature processes, and to discuss accelerating the development and acceptance of innovative materials and test techniques for clean energy technology.

Abstracts Due 07/19/2021
Proceedings Plan Planned:

2D Perovskites as Stable Photoabsorber Materials for Solar Cells
3D printed Carbon and Graphene aerogels for energy storage applications
Adsorption and Surface Diffusion of Metals for Advanced Manufacturing Applications
Ag@AgCl Core/shell Catalysts with Bumpy Surface to Enhance Oxygen Reduction Reaction
AI BMS Design With Sensor and ML Integration
Bioinspired low-cost photoelectrochemical green Hydrogen production cell
Bismuth doped Lanthanum chromate perovskite oxide as a novel electrode material for symmetrical solid oxide cell
Bismuth Ferrite: Comparing the Effect of Synthesis Route on Properties
Bulk Ferroelectric Metamaterial with Enhanced Piezoelectric and Biomimetic Mechanical Properties from Additive Manufacturing
Characterization of AlCl3-urea Electrolyte for Speciation, Conductivity, and Electrochemical Stability and It’s Application in Al-ion Batteries
Chemical Vapor Deposition Synthesis of Atomically Dispersed Single Metal Site Carbon Fibers for Highly Efficient Electrocatalysis
Chemo-Mechanics of Alkali-ion Intercalation into Iron Phosphate Composite Cathodes
Computational investigations of the structure and interface stability of the solid electrolyte material Li4PS4I
Continuous Process for Harvesting Energy from Aluminum Scrap via Liquid-Metal Activation
Crystal Facet-Controlled SnS Photocathodes for Bias-Free Photoelectrochemical Solar Water Splitting
Degradation characteristics of PU foam in district heating pipe under accelerated aging condition
Design Paradigm for Manufacturing Functional Materials from Environmentally Benigh Precursors
Designing Electrode Architectures across Length Scales: Some Lessons Learned from Li-ion and “Beyond Li” Chemistries
Development of Solid Oxide Cell and Stack Technologies at Nexceris: From Fuel Cells to Electrolyzers and Reversible Operation
Effect of transition metal doping on the electrochemical properties of B-site doped Neodymium Nickelate for reversible solid oxide cells
Electric Field Process for Lithium Ion Batteries
Electrochemical Performance Impact of Nickel Migration in Ni-YSZ Cermet in Reversible Solid Oxide Electrochemical Cells
Engineering phase transformations in intercalation materials
Enhanced photoelectrochemical water-splitting performance in 2D graphene layer/WO3 thin film
Enhancing the thermoelectric performance of Si using energy filtering
Excellent Rechargeability of Zinc Film Electrode Produced by Electrodeposition for Zinc Rechargeable Batteries
Experimental and computational investigations of the multiple impurities effects on the SOFC cathode materials
Feasibility studies of fully inorganic perovskite cells through experimental degradation and metrics identification: towards the development of hybrid sensors for biomedical wearable devices
Film strains enhance the reversible cycling of intercalation electrodes
First principles studies on doping effect of Ni-rich cathode material
High-Capacity Flexible Anode Electrode for Lithium-ion Batteries
High-Performance Solid Oxide Cells for Cost Effective Hydrogen Production
High Energy Density Batteries for Vehicle Electrification
High performances and high durability of copper oxide photoelectrodes
Highly Catalytic and Stable Oxides, NBRO and MBRO, for Oxygen Reactions in Air Rechargeable Battery Using Alkaline Solution
Homogeneously mixed Graphene/S nanoparticles as anode for Li-S battery
Homogeneously mixed Graphene/Si nanoparticles as anode for Li-ion battery
Impact of low operating temperatures on the performance of Li-ion batteries
In-situ surface modification of biocompatible 3D printed polylactic acid (PLA) and PLA composites using plasma micro-discharge
Initiatory Plating and Stripping towards the Survival of Sodium Metal Electrodes
Interplay between mechanics and electrochemistry in FeS2 electrode performance
Joining and Oxidation of Haynes 282 Superalloy Microtubes for High-Performance Heat Exchanger Applications
Machine Learning-driven Analytics for Solid-State Batteries
Machine learning enables discovery of ternary alloy catalysts for oxygen reduction
Magnesium Hydride Slurry Aerospace Fuel with Net-zero or Net-negative Emissions
Magnetoelectrochemical control of interfacial degradation during fast charging of LIB
Materials and Manufacturing for High Temperature Concentrating Solar Power Applications
Mesoscale Analysis of Electrochemical-Mechanical Interactions in Solid-State Batteries
Microstructural Stability of Reversible Solid Oxide Electrochemical Cells Subjected to Mode Switching
Multi-Layered Thin-Films Metal Contacts For New Generation Solar Cells
On Recent Development in Two-Dimensional Transition Metal Dichalcolgenides for Applications in Hydrogen Evolution Reaction
Prevention of thermal runaway in Li-ion batteries using machine learning model prediction
Quantifying Triple Phase Boundary Density in Nanocatalyst-infiltrated SOFC Anodes Using 3-D Reconstruction and Scanning Electron Microscopy
Rational Sustainable Materials Selection and Electrification: A New Battery Designer Tool
Simulating microstructure evolution in Ni-YSZ electrodes of solid oxide cells under operating conditions
Study on a Short Process Method for Preparation of 3.5 Valence Vanadium Electrolyte
Synthesis and electrochemical studies of sodium β’’-Al2O3/10Sc1CeZr composite as a two independent phase mixed ion conductor
Synthesis of Bicontinuous 3-D Turbostratic Graphene
Theoretical analysis of oxygen ion transport in doped ceria
Thermoelectric generators system made with low-cost thermoelectric modules for low temperature waste heat recovery
Ultra-Thick Electrodes for High Energy and Power Density Lithium-ion Batteries
Use of Internal Thermal Sensors in Lithium-ion 18650 Battery Packs for Analysis of Individual Cell Temperatures During Cycling
Use of Machine Learning Methods to Predict Remaining Useful Life of Lithium-ion Batteries After Experiencing Non-Catastrophic Nail Puncture
X-ray Characterization of Battery Degradation

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