2018 MRS Spring Meeting Highlights
CM01—Exploring Nanoscale Physical Properties of Materials via Local Probes
CM02—In Situ TEM Characterization of Dynamic Processes During Materials Synthesis and Processing
CM03—Investigating Nanostructures with X-Rays---Fundamentals and Applications
CM05—Strain Localization, Avalanches and Intermittent Deformation Mechanisms
CM06—Frontiers in Functional Imaging in Aberration-Corrected Electron Microscopy
EN01—Solid-Solid Interfaces in Batteries, Energy Storage and Conversion—Diagnostic and Modeling
EN02—Advances in Perovskite Solar Cell Devices and Applications
EN03—Superconducting Materials—From Basic Science to Applications
EN04—Advanced Materials for Carbon Capture and Other Important Gas Separations
EN05—Field-Responsive Composites for Sustainable Energy
EN06—Safer and More Energy-Dense Rechargeable Batteries
EN07—Issues, Challenges and Opportunities in Actinide Materials
EN08—Low-Cost Tandem Photovoltaic Cells
EN09—Materials and Systems for Grid Energy Storage---Redox Flow Batteries
EN10—Thermoelectric Materials, Devices and Applications
EN11—Nanomaterials for the Water and Energy Nexus
EN12—Hierarchical Materials for Nuclear Waste Management
EN13—Capacitive Energy Storage---Fundamentals, Materials and Devices
EN14—Materials Science and Device Engineering for Safe and Long-Life Electrochemical Energy Storage
EN15—Novel Materials Physics of Perovskite Semiconductors
EN17—Fundamental Materials Science to Enable the Performance and Safety of Nuclear Technologies
EN18—Multiscale Designing and Constructing Photocatalytic Materials for Solar Fuels
EN19—Novel Inorganic Semiconductors for Optoelectronics and Solar Energy
EP01—Materials for Beyond the Roadmap Devices in Logic, Memory and Power
EP02—Excitonic Materials—Physics, Characterization and Devices
EP03—Materials and Processes for Nonlinear Optics and Nonlinear Photonics
EP04—Reliability and Materials Issues of Semiconductor Optical and Electron Devices and Materials
EP06—Materials, Devices and Systems for Machine Learning and Neuromorphic Computing
EP08—Advanced Polymer Semiconductors---Key Properties and High-Performance Electronics
MA01—Advanced Materials for Analog and Digital Functional Printing
MA02—Organic Electronics---Processing, Microstructure and Multifunctioning
MA03—Directed Matter—Atom-by-Atom Assembly with Electron Beams and Scanning Probes
MA04—Advances in Additive Manufacturing—Materials, Processes and Devices
MA05—Dynamic Materials and Textiles for Next-Generation Clothing
NM01—Nanomaterials and Devices by Cluster Beam Deposition
NM02—Active Colloids with Order
NM03—Rational Designed Hierarchical Nanostructures for Photocatalytic Systems
NM04—Porous Materials and Nanocomposites for Catalysis
NM05—Colloidal Nanoparticles---From Synthesis to Applications
NM06—Nanodiamonds---Synthesis, Characterization, Surface Chemistry and Applications
NM07—Nanoscale Magnetic Structures and Materials
NM08—Graphene Oxide Liquid Crystals and 2D Soft Material Systems
NM09—Novel Approaches and Material Platforms for Plasmonics and Metamaterials
NM10—Nano-Metallic Materials by Design
NM11—Deformable Atomically Thin Materials---Mechanics, Materials and Devices
SM02—Immune Modulatory Materials—From Design to Translational Applications
SM04—Understanding and Controlling the Structure and Function of Biomolecules at Material Interfaces
SM05—Biomaterials for Tissue Interface Regeneration
SM06—The Future of Neuroengineering---Relevant In Vivo Technology
SM07—Functional (Bio)polymers in Energy and Environment Applications
Meeting Chairs
Call for Papers
Flow-based electrochemical energy systems, like redox flow batteries, are emerging for long-duration energy storage and addressing renewable energy intermittency. This special collection will discuss the advanced materials and challenges for flow-based electrochemical energy conversion and storage technologies, their applications, and economic viability both as stationary and transportation energy systems.