2022 MRS Spring Meeting
Mahalo for joining us at the 2022 MRS Spring Meeting & Exhibit in Honolulu! The virtual portion of the Meeting took place May 23-25 and included three days of inspiring live talks and a robust catalog of recorded presentations.
2022 MRS Spring Meeting Highlights
Symposium Topics
EN01—Silicon for Photovoltaics
EN02—III-V Semiconductors for Energy Conversion Technologies
EN03—Emerging Inorganic Semiconductors for Solar Energy and Fuels
EN06—Solid-State Batteries—From Electro-Chemo Mechanics to Devices
EN07—Sustainable Polymeric Materials by Green Chemistry—Degradability and Resilience
EQ01—Ultra-Wide Bandgap Materials and Devices
EQ02—Harnessing Functional Defects in Energy and Electronic Materials
EQ03—Next-Generation Organic Semiconductors—Materials, Fundamentals and Applications
EQ05—Semiconductor Physics of Halide Perovskites—From Fundamentals to Devices
EQ06—Surfaces and Interfaces in Electronics and Photonics
EQ08—Quantum Dot Optoelectronics and Low-Dimensional Semiconductor Electronics
NM01—Beyond Graphene 2D Materials—Synthesis, Properties and Device Applications
NM02—Reconfiguring the Properties of 2D Materials by Post-Synthesis Design
NM03—2D MXenes—Synthesis, Properties and Applications
NM04—Nanotubes and Related Low-Dimensional Nanostructures
NM05—Advances in Nanodiamonds for Sensing, Biomedical and Other Novel Applications
NM06—Nanoscale Mass Transport Through 2D and 1D Nanomaterials
QT01—Applications and Characterization of Nonequilibrium Electron, Phonon and Polaron Dynamics
QT02—Quantum and Topological Phenomena in Two-Dimensional Systems
QT03—Higher-Order Topological Structures—From Charge to Spin
QT04—Topology and Exotic Quantum Phases in 3D Materials
QT05—2D Topological Materials—Growth, Theoretical Models and Applications
QT07—Atomic and Molecular Quantum Systems and Defect Engineering for Quantum Technologies
QT08—Group IV Quantum Engineering
QT09—Light-Matter Strong Coupling in the Infrared and THz—Materials, Methods and New Phenomena
SB02—Materials, Power Sources, Sensors, Actuators and Mechanics for Untethered Soft Robots
SB03—Robotic Materials for Advanced Machine Intelligence
SB04—Advanced Soft Materials for Bioelectronic Interfaces
SB05—Tissue-Like Bioelectronics and Living Bioelectronic Interfaces
SB06—Bioelectronic Materials and Devices for In Vitro Systems
SB07—Bioresponsive Nanotheranostics
SB08—Soft Embodiments of Electronics and Devices for Healthcare Applications
SF01—Materials Research Needs to Advance Nuclear Fuels, Structural Materials and Wasteforms
SF02—Actinide Materials—From Basic Science to Applications
SF03—Paper-Based Packaging—21st Century Perspectives on an Ancient Material
SF05—Autonomous Materials for the Next-Generation of Smart Systems
SF06—Recent Advances in Structural Materials from Bulk to Nanoscale
SF07—In Situ Material Performance and Dynamic Structure Characterization Under Coupled Extremes
SF08—Far From Equilibrium Microstructure Evolution in Metals
SF09—High Entropy Materials II—From Fundamentals to Potential Applications
SF10—Emerging Functional Materials and Interfaces
SF11—Advances in Design, Synthesis and Characterization of Functional Heteroanionic Materials
SF12—Bioinspired Structural Composites—Advances in Experiments, Simulations and AI-Based Design
SF13—From Actuators and Energy Harvesting Storage Systems to Living Machines
SF14—Novel Frontiers in 3D and 4D Multi-Photon Micro-Fabrication—Materials, Methods and Applications
SF15—Thermal Processes and Management Under Unconventional Conditions
SF16—Advanced Materials for Antibacterial, Antiviral and Antifungal Applications—From Micro to Nano
Meeting Chairs
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University of Cambridge
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Samsung Electronics
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Harvard University
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Osaka University
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ETH Zürich
Call for Papers
Scientific Basis for Nuclear Waste Management XLVIII: Towards Effective Nuclear Waste Management - Progress and Challenges
This special issue focuses on the science and technology of nuclear waste management, emphasizing performance and key challenges. It assesses nuclear waste forms and their compatibility with geological disposal, explores waste processing technologies, and discusses state-of-the-art development of sorbent materials for radionuclide capture.
