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Meeting 2019 TMS Annual Meeting & Exhibition
Symposium 5th Symposium on Advanced Materials for Energy Conversion and Storage
Sponsorship TMS: High Temperature Alloys Committee
Organizer(s) Amit Pandey, LG Fuel Cell Systems
Partha P. Mukherjee, Purdue University
Surojit Gupta, University of North Dakota
Kyle S. Brinkman, Clemson Univ
Jung Pyung Choi, Pacific Northwest National Laboratory
Soumendra Basu, Boston University
Paul R. Ohodnicki, National Energy Technology Laboratory
Scope TMS 2019 Annual Meeting and Exhibition in San Antonio, TX

Symposium Title: 5th Symposium on Advance Materials for Energy Conversion and Storage

Sponsorship TMS: Energy Conversion and Storage Committee
Organizer Amit Pandey, LG Fuel Cell Systems Inc., dramitpandey@gmail.com
Sponsor: Energy Conversion and Storage Committee (FMD)
Co-Sponsor: High Temperature Alloys Committee (SMD), Corrosion & Environmental Effects Committee (SMD)

Theme 1: Energy Conversion with emphasis on SOFCs.
Co-Organizers-
i. Prof. Kyle S Brinkman, Clemson Univ., ksbrink@clemson.edu (Lead)
ii. Prof. Hitoshi Takamura, Tohoku University, takamura@material.tohoku.ac.jp
iii. Prof. Xingbo Liu , West Virginia University , xingbo.liu@mail.wvu.edu
iv. Prof. Soumendra Basu, Boston University, basu@bu.edu
v. Dr. Jung Pyung Choi, Pacific Northwest National Laboratory, jungpyung.choi@pnnl.gov
vi. Prof. Prabhakar Singh, Univ. of Connecticut, singh@engr.uconn.edu

Themes: These symposium topics include, but not limited to, experiments and modeling of the above-mentioned systems including,
• Durability of fuel cell and stack materials
• Thermal-Chemical-mechanical stresses/expansion
• Study of thermo-mechanical degradation mechanisms.
• Effect of microstructure evolution on the properties and efficiency.
• Role of grain boundary density, grain size, orientation and grain growth.
• Advances in the characterization and modeling techniques.

Theme 2: Energy Storage with emphasis on Batteries
Co-Organizers
i. Prof. Partha P. Mukherjee, Purdue University, pmukherjee@purdue.edu (Lead)
ii. Prof. Leela M. R. Arava, Wayne State University, larava@wayne.edu
iii. Prof. George Nelson, University of Alabama in Huntsville, george.nelson@uah.edu
Topics will include:
• Physicochemical Interaction in lithium-ion batteries and beyond (e.g. Li-S, Li-air, Na-ion)
• Electrode microstructure - property - performance interplay
• Mesoscale modeling and characterization (e.g. X-ray tomography)
• Degradation (e.g., mechanical, chemical, electrodeposition) characteristics in electrodes

Theme 3: Materials Design for Sustainability and Energy Harvesting
Co-Organizers:
i. Surojit Gupta, University of North Dakota, surojit.gupta@engr.und.edu (Lead)
ii. Indrajit Dutta, Corning Inc., DuttaI@corning.com
iii. Dr. D. Wen, University of Leeds, D.Wen@leeds.ac.uk
iv. Prof. Sankha Banerjee, California State University, sankhab@csufresno.edu
v. Manoj Kumar Mahapatra, University of Alabama, mkmanoj@uab.edu

Themes: Sustainability has become an integral component of research, and a critical issue for the growth and well-being of society. Some of the critical challenges are the rapid urbanization, a growing and aging population, the large amount of waste disposed to landfill, global impoverishing of natural resources and environment (fossil fuels, minerals, water and energy scarcity etc.), declining infrastructure, the emergency to control carbon dioxide emissions among others. These challenges have prompted – materials scientists and engineers to design “green” or environmentally benign technologies. This component of the symposium 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
• Energy Harvesting
• Nanotechnology and next generation multifunctional materials
• Additive manufacturing, 3D printing, and sustainability
• Green Tribology
• Life cycle analysis of materials and products

Theme 4- Functional Materials including High Temperature Ceramics and Alloys
Co-Organizers-
i. Dr. Jung Pyung Choi, Pacific Northwest National Laboratory, jungpyung.choi@pnnl.gov (Lead)
ii. Dr. Paul Ohodnicki, National Energy Technology Laboratory, Paul.Ohodnicki@netl.doe.gov
i. Prof. Soumendra Basu, Boston University, basu@bu.edu
ii. Prof. Dwayne Arola, Univ. of Washington, darola@uw.edu
iii. Prof. Josh Gladden, Olemiss, jgladden@olemiss.edu
iv. Prof. Soumendra Basu, Boston University, basu@bu.edu
v. Prof. Rajeev Gupta, Univ. of Akron, rgupta@uakron.edu


Materials / Applications:
• Functional Oxides / (SOFC, Sensors, Others)
• Ceramics and Dielectrics / (Battery, Insulation Dielectrics, Capacitors, Sensors)
• Solid State Batteries/Electrolyzers/Solid oxide fuel cells/Membrane Separation/ electrolysis cells
Topics will include:
• Coatings for interconnections.
• Membrane Separation Materials, Processes and Systems (H2, O2, CO2).
• High temperature electrolysis cells.
• High temperature performance of functional materials (electrochemical, electronic, optical, etc.)
• In-situ spectroscopy of oxidation state of functional oxides in operation
• Ceramics//Composite Structures/Alloys- Solid Oxide fuel cells, Thermal Barrier Coatings, Diesel particulate filters etc.
• Reliability and durability of high-temperature ceramics and alloys, including the effect of residual/ operational stresses, corrosion under oxidizing and reducing environment.
• Advances in the characterization and modeling techniques including multiscale and in-situ.
• Microstructural reconstruction and mapping onto fundamental mechanistic models for predicting overall performance
• Nanostructuring and infiltration of functional electrode materials (SOFC, battery, capacitor) for electronic / electrochemical performance


The intent of this symposium is to provide a forum for researchers from national laboratories, universities, and industry to discuss current understanding of materials science issues in high-temperature processes and accelerate the development and acceptance of innovative materials and test techniques for clean energy technology.
Abstracts Due 07/16/2018
Proceedings Plan Planned:
PRESENTATIONS APPROVED FOR THIS SYMPOSIUM INCLUDE

3D Printed Hierarchically-porous Microlattice Electrode Materials for Exceptionally High Specific Capacity and Areal Capacity Lithium Ion Batteries
An Ab Initio Study of the Electronic and Atomic Structure at the PCBM/CH3NH3PbI3 Interface in Perovskite Solar Cells
Aprotic Li/O2 Batteries: Reactions and Products in Different Electrolytes
Atomic Scale Study of the Anti-vortex Domain Structure in Polycrystalline Ferroelectric
Battery Performance and Safety Aspects of Imposed Thermal Gradients
Bi2Mn4O10/C-N Nanocomposite as a New Sodium-Ion Battery Anode Material
Biomass Carbon Enabled, High Performance Lithium-sulfur Batteries
Carrier Separation in High-efficient Kesterite Thin-film Solar Cells Probed by Optical and Scanning Probe Investigation
Cathode Poisoning and Mitigation in the Presence of Combined Cr and S Contaminants in SOFC
Ceramic Encapsulated Metallic (CEM) High Temperature Phase Change Material for Energy Storage
Coatings for Metallic Components of Solid Oxide Fuel Cell Systems
Cold Spray Additive Manufacturing of Thermoelectric Generators
Comparison of Solar Selective Absorbance Properties of TiN, TiNxOy and TiO2 Thin Films
Conversion of Soybean Waste to Activated Carbon Spheres for Electrical Double Layer Capacitors
Critical Size Scale and Effects of Transport Gradients on Plating in Li-ion Batteries
Defining Conduction Pathways in Cathode Materials: Resolving Logjams through Atomistic Design and Mesoscale Structuring
Density Functional Theory Modeling of the Cation Impurity Diffusivity and Solubility in La1-xSrxMnO (LSM) for Solid Oxide Fuel Cells
Design of Novel Polymer Matrix Composites
DOC Stabilized PVAc / MWCNTs Composites for Higher Thermoelectric Performance
Electrochemically Driven Phase Transition: Observations and Mechanisms
Electrophoretic Deposition of Gadolinium-doped Ceria as a Barrier Layer on Yttrium-stabilized Zirconia Electrolyte for Solid Oxide Fuel Cells
Electrophoretically Deposited Copper Manganese Spinel Coatings for Prevention of Chromium Poisoning in Solid Oxide Fuel Cells
Elucidating the Role of Mesoscale Morphology on Lithium-ion Battery Mechanical and Electrochemical Performance through Mesoscale Simulation
Enhanced ZT in Si by Using SiC Dispersoids to Tune Both Electrical and Phonon Transport Properties
Exploiting Piezoelectrochemical Phenomena in Lithium-ion Batteries for Low Frequency Mechanical Energy Harvesting and Storage
Facile Synthesis of Mesoporous NiCo2O4 Fibers with Enhanced Photocatalytic Performance for the Degradation of Organic Dyes under Visible Light Irradiation
First Principles Calculations of Oxygen Diffusion in LSGM
Functional Sensor Material and Device Development for Energy-related Sensing Applications
Future Battery System Modeling and Diagnostics for Automotive Application
Heterostructuring Using Core-Shell Nanosynthesis
High-temperature Oxidation Behavior of Additive Manufactured Inconel 625
High Energy in situ SR-XRD Studies of Pure Pb, Pb-Bi, and Pb-Ba Foils at Elevated Temperatures
High Pressure Co-electrolysis of CO2/H2O in Tubular Solid Oxide Electrolysis Cells
Highly Efficient Chalcogenide Solar Cells on Flexible Polymers: Nanoscale Imaging of Optoelectronic Properties
Hollow Sn Microspheres for Lithium-ion Battery
Impact of the Humidity on the Nanostructure Degradation of Ionic Conductor YSZ from Electrodes of SOFCs upon Electrochemical Operation
In-situ Measurements of Stress Evolution in Composite Sulfur Cathodes
In Situ Electrochemical Dilatometry Study of Capacity Fading in Nanoporous Ge-based Na-ion Battery Anode during Sodiation-desodication Cycles
Infiltration of Nickel Nanoparticles in Ni/YSZ Solid Oxide Fuel Cell Anodes for Improved Performance
Internal Resistance Temperature Detector Based Solution for Lithium-ion Battery Thermal Events Prediction, Prevention and Control
Investigating the Performance of NMC-532 Cathode Materials Operating Different Voltages
Iron Doped Gallium Oxide (Ga2-xFexO3): Structure, Chemistry and Dielectric Properties
Laser 3D Printing of SOFC
Li-ion Capacitors: Combining Energy and Power Densities
Lithium Battery Characterization Using Neutron Imaging Techniques
Local Structure and Capacity Fade Correlations in Cathode Materials for Multivalent-ion Intercalation
Materials Design for Energy and Sustainability
Measuring Chromium in SOFC Systems
Mechanical Properties of Lithium Metal at the Macro- and Micro-scale
Mechanistic Understanding of Multi-modal Degradation in Li-ion Battery Electrodes
Modeling Thermal Resistance of the Interface between Mechanically Contacting Surfaces
Mutliscale Analysis of Lithium Ion Battery Materials Using X-ray Tomography
Nondestructive 3D Analysis of Solid Oxide Fuel Cells by Lab-based X-ray Nanotomography – Towards Computational Integrity
Novel Fabrication of Interconnected Hierarchical Porous Carbon Derived from Biowaste for High Performance Electrochemical Energy Storage Devices
Observations on Accelerated Oxidation of a Ferritic Stainless Steel under Dual Atmosphere Exposure Conditions
One Dimensional Nanomaterials for Emerging Energy Storage
Operando Transmission Electron Microscopy Study of Lithium Storage Mechanisms in Nanoporous Metals
Oxide-based Thermoelectric Generators enabled by Additive and Layered Manufacturing
Phase Field Simulation of Ni Coarsening in SOFC Anodes in Dry and Humid Atmospheres
Poisoning and Recovery Mechanism of SOFC Cathode
Printable and Flexible Heterogeneous Nanostructures for Wearable Thermoelectrics
Rare Earth Nickelate Cathodes for Air Independent Operation of Solid Oxide Fuel Cells
Reliability and Degradation Mechanism of Li-ion Batteries under Grid Services
Sculpting Atomically Disordered Oxides for Fast Ion Conduction
Self-cleaning Cathodes for Endurance to Chromium Poisoning
Sustainable Hydrogen Generation Enabled through Hydrolysis of Hierarchical Nanoporous Aluminum in Neutral Water
Synthesis and Electrocatalytic Properties of Ni-Fe Layered Double Hydroxide Nanomaterials
The Improvement in Conversion Efficiency of Phthalocyanine-based Organic Photovoltaics
Toward New Electrode Materials for Energy Storage Devices: Synthesis via Chemical Pre-intercalation Approach
Tuning Ionic Mobility in Solid Electrolytes via Lattice Disorder
Understanding Gas Evolving Reactions and the Effects of Gaseous Products on Li ion Cycle Life
Understanding Heterogeneous Electrocatalysis of Lithium Polysulfides
Understanding Hollow Metal Oxide Nanomaterial Formation with in situ Transmission Electron Microscopy
Understanding the Mesoscopic Phase Transformation Kinetics in Intercalation Compounds
Wide Voltage Symmetric Supercapacitor based on High-performance Carbon Clothes Resulting in Enhanced Energy Densities
(M, Mn)3O4 Spinel for Advanced Electrical Conductive layer for SOFC Stacks


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