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Meeting 2023 TMS Annual Meeting & Exhibition
Symposium Advanced Materials for Energy Conversion and Storage 2023
Sponsorship TMS Functional Materials Division
TMS: Energy Conversion and Storage Committee
Organizer(s) Jung Pyung Choi, Pacific Northwest National Laboratory
Amit Pandey, Lockheed Martin Space
Partha P. Mukherjee, Purdue University
Surojit Gupta, University of North Dakota
Soumendra Basu, Boston University
Paul R. Ohodnicki, University of Pittsburgh
Eric Detsi, University of Pennsylvania
Scope 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 are 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 include AI, big data, and Deep Learning.

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,
v. Prof. Leon Shaw, Illinois Institute of Technology,

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
Computer simulation/modeling includes AI, big data, and deep learning.

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,

Focus area: This symposium component will focus on a variety of 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
Additive manufacturing, 3D printing, and sustainability
Green Tribology
Life cycle analysis of materials and products
Computer simulation/modeling includes AI, big data, and deep learning.

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,
iv. Prof. Patrick Shamberger, Texas A&M University,

Focus area:
Functional Oxides, Nitrides, and Carbides
Ceramics and Dielectrics
Thermal Energy Harvesting, Conversion, storage, 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
Computer simulation/modeling includes AI, big data, and deep learning.

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, including high-temperature processes, and to discuss accelerating the development and acceptance of innovative materials, and test techniques for clean energy technology.

Abstracts Due 07/17/2022
Proceedings Plan Planned:

3D detailed modeling framework of electrochemo-mechanics behavior in SiO/Gr composite anode for high energy density lithium-ion battery​
A novel equilibrium Monte Carlo approach for efficient calculation of phonon conductivity in nanostructured thermoelectric materials
A Solid Transformation of Energy Storage
Advanced Na-metal halide batteries for long duration energy storage applications
Aluminum-Anodes for Metal-Air-Batteries
An Experimental Method to Characterize the Polymer Binder/Active Material Interface Degradation In Rechargeable Battery Materials.
Analysis of degradation of (Ni-YSZ) fuel electrode during SOEC operation
Apparent Microstructurally Induced Phase Separation in Porous LiNiMnCoO2 Cathodes
Application of Electrodeposited Zinc Thin Film to Anode of Zn-Ni Secondary Battery for Thousands of Charge-Discharge Cycles
Assembled MXene/Carbon Nanotube Electrodes with Anomalous Electrochemical Response
Atomic Level Understanding of the Na Hosting Environments in Hard Carbon Anodes for Sodium Ion Batteries
Atomistic Simulations of Reaction Kinetics at Electrochemical Interface
BCFZY Triple Conducting Electrode Materials for Protonic Ceramic Electrochemical Cells
Bioinspired Hydrogen Electrolyzer
Cathode Materials Recycling, Regeneration, and Reuse
Challenges of ASSB development for Future Electric Vehicle Application
Computational study for structural evolution and ion migration in Li-Mn-rich layered electrode
Correlating Microstructural Evolution in Reversible Solid Oxide Electrochemical Cells to their Performance
Corrosion Resistant SiOCN Coatings on Steel with Repair Capability
Designing Electrode Architectures across Length Scales
Development of high energy-density and high-power density lithium-ion capacitors based on MnO2/GO nanocomposite electrode for Energy Storage System
Development of Novel Green Manufacturing Technologies for Fabricating Functional Materials
Dielectrics, solid electrolytes, and ferroelectrics: what makes a good insulator layer in energy harvesting and storage cells good?
Effect of Binder-Solvent System on the Structure and Performance of Sulfur Cathodes in Lithium-Sulfur Batteries.
Electrochemical Hydrogenation of Furfural to 2-Methylfuran under Mild pH Environment over Silver/Nanoporous Copper Catalyst
Electrochemical Systems for Global Net-Zero and Zero Carbon Electricity Infrastructure
Elucidating the Governing Forces Behind Chemo-Mechanical Instabilities in Electrodes for Alkali Metal-ion Batteries
Elucidation of the structure property relationships that enable Grotthuss diffusion in Prussian blue electrodes for fast hydrogen ion batteries
Enabling high-energy-density cathodes by coupling electrochemistry and mechanics across length scales
Enhanced Reversibility in Calcium Chloride Hexahydrate with Nucleation Agents for Thermal Energy Storage Applications
Experimental Simulation of the Erosive-Corrosive Wear and Shear Rate Dependence of an Iron and Molten Al-Si Thermal Storage System
Fabrication and electrochemical characterization of Si-C hybrid nanocomposites for high-performance Li ion batteries
Fabrication of the seamless stainless tube for hydrogen refueling stations
Fast-charging Aluminum-chalcogen batteries resistant to dendritic shorting
First-Principles Studies of Metal Nanoparticles on Substrates for Advanced Manufacturing Applications
Grain Boundary Metal-Insulator Transitions in Polycrystalline LiCoO2
High Performance Reversible Solid Oxide Fuel Cells (RSOCs) Based on Ruddlesden-Popper Oxygen Electrodes for Grid Scale Energy Storage
High Recycled Content Aluminum Alloy Current Collector for Lithium-Ion Batteries
How Safe Are Solid-State Batteries? An Exploration of Heat Release
Hybrid halide solid electrolytes and bottom-up cell assembly enable high voltage solid-state lithium batteries
In-situ and ex-situ surface engineering, processing, and characterization of PLA-based biocompatible composites using micro-plasma-based techniques
Investigation mechanical process of New alloy electrode using All Solid State battery
Large-Scale Phase-Field Modeling of Lithium Dendrite Growth
Lithium-Ion Battery Silicon Anodes: Reducing Mechanical Degradation through Morphological Design
Mechanical characterization of the elasto-plastic properties of solid electrolytes via atmosphere-controlled instrumented nanoindentation
Mechanical testing of novel chromium superalloys strengthened by intermetallic precipitates
Mechanistic Analysis of Interface Stability in Solid-State Batteries
Micro plasma-based surface modification of biocompatible polymers and composites towards the modification of surface properties for biomedical applications
Mitigate Plating in Graphite using Electrode Microstructure Simulations
Modelling and Optimization of Nanofiber-based Triboelectric Nanogenerators
Molten hydroxide electrodeposition of ceramic oxide cathodes for electrochemical energy storage
Multiphysics Models for Understanding and Enhancing Cycle and Calendar Life of Silicon-rich Lithium-ion Batteries
New compounds with distinct porous morphology
New Family of Interstitial Oxygen Ion Conductor Discovered by High-Throughput Computational Screening
Non-destructive evaluation of defects in composite pressure vessels for hydrogen storage
Novel thermal barrier coatings stable up to 1700C
On the Specific Capacity and Cycle Stability of Si Anodes: Effects of Charge/Discharge Protocol
Operando Degradation Analytics Using 3ε Toolbox
Opportunities and Challenges for In Situ Synchrotron Characterization of All Solid State Batteries
Optically sensitive Mott-insulator for supercapacitor
Physics-based Understanding of Heterogeneous Nucleation during Lithium Electrodeposition
Probing the Role of SEI Heterogeneity on Sodium Plating and Stripping
Protective Coatings on Porous Interconnects for SOFC Applications
Raman Spectroscopy Characterization of Li-ion Battery Electrode Damage from Continued Cycling After Partial Nail Puncture
Rapid Thermal Buffering via Sorption based Energy Storage Materials
Rate, Size, and Temperature Effects in Alkali Metal Anodes
Reversible aqueous formate-based Na-CO2 battery enabled through Earth-abundant nanoporous metals
Salt Hydrate Eutectics: Expanding the Palette of Phase Change Materials for Thermal Energy Storage
SolidPAC: A Design Tool for Solid-State Batteries
Spectroscopic investigation of long cycling Al-ion batteries enabled by ionic liquid electrolytes with organic additives
Structural integrity at elevated temperature assessment of solid particles for concentrated solar power systems using ICME approach
Study of the efficacy of a perovskite sensor-based non-invasive glucose monitoring system using infrared light intensity correlations: towards the development of measurement metrics using data analytics
Sulfur and chromium poisoning mechanism of lanthanum nickelate cathode material: a thermodynamic and experimental study
Surface engineered TiO2 nanostructures as effective cathode host materials in Li-S batteries
Surface Oxidation of MNiSn (M=Ti, Zr, Hf) Half-Heusler Alloys
Synthesis, Characterization and Determination of Electrical Properties of Potassium Jarosite Powders
The Compatibility of Metallic Phase Change Materials and Alumina Coating on Steel Housing Material
The energy saving potential of thermo-responsive desiccants for air dehumidification
Thermal and Rheological Properties of Sodium Sulfate Decahydrate Phase Change Materials with various Thickening and Stabilization Mechanisms
Towards Fracture-free Bulk Silicon Anodes for Lithium-ion Batteries
Triple-cation perovskite photoabsorbers and solar cells
Ultra-Thick Electrodes for High Energy and Power Density Lithium-ion Batteries
Understanding Electrode/electrolyte Interfacial Properties in Non-flammable Li-ion Batteries for Extreme Environment.
Understanding Improved Alkali Metal Plating of Sodium Compared to Lithium via 2DIR characterization and MD Simulation of Weaker Solvation Behavior for High Energy Battery Systems
Understanding lithium metal oxidation via atomistic simulations combined with surface structure sampling
Understanding of the SEI Formation and Its Impact on Ionic Conductivity in Li(metal)/LLZT/NMC(811) All Solid State Battery from Classical Molecular Dynamics
Understanding Reactive Metals for Future Batteries - Lithium vs. Sodium

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