2016 MRS Spring Meeting
Topical Clusters
- Characterization and Modeling of Materials (CM)
- Energy and Environment (EE)
- Electronics and Photonics (EP)
- Materials Design (MD)
- Nanotechnology (NT)
- Soft Materials and Biomaterials (SM)
2016 MRS Spring Meeting Highlights
Symposium Topics
CM1—New Frontiers in Aberration Corrected Transmission Electron Microscopy
CM2—Quantitative Tomography for Materials Research
CM3—Mechanics and Tribology at the Nanoscale---In Situ and In Silico Investigations
CM4—Verification, Validation and Uncertainty Quantification in Multiscale Materials Simulation
EE1—Emerging Materials and Phenomena for Solar Energy Conversion
EE10—Recent Advances in Materials for Carbon Capture
EE11—Caloric Materials for Renewable Energy Applications
EE12—Radiation Damage in Materials---A Grand Multiscale Challenge
EE13—Actinides---Fundamental Science, Applications and Technology
EE14—Titanium Oxides---From Fundamental Understanding to Applications
EE15—Materials for Sustainable Development---Integrated Approaches
EE2—Advancements in Solar Fuels Generation---Materials, Devices and Systems
EE3—Materials and Devices for Full Spectrum Solar Energy Harvesting
EE4—Electrode Materials and Electrolytes for Lithium and Sodium Ion Batteries
EE5—Next-Generation Electrical Energy Storage Chemistries
EE7—Mechanics of Energy Storage and Conversion---Batteries, Thermoelectrics and Fuel Cells
EE9—Hydrogen and Fuel Cell Technologies for Transportation---Materials, Systems and Infrastructure
EP1—Organic Excitonic Systems and Devices
EP10—Optoelectronics of Two-Dimensional (2D) Materials
EP11—Novel Materials for End-of-Roadmap Devices in Logic, Power and Memory
EP12—Materials Frontiers in Semiconductor Advanced Packaging
EP13—Tailoring Superconductors---Materials and Devices from Basic Science to Applications
EP14—Materials for Next-Generation Displays
EP15—Diamond Power Electronic Devices
EP2—Silicon Carbide---Substrates, Epitaxy, Devices, Circuits and Graphene
EP3—Perovskite-Based Photovoltaics and Optoelectronic Devices
EP4—Emerging Silicon Science and Technology
EP5—Metal Oxide Hetero-Interfaces in Hybrid Electronic Platforms
EP6—Integration of Heterovalent Semiconductors and Devices
EP7—Material and Device Frontiers for Integrated Photonics
MD1—Materials, Interfaces and Devices by Design
MD10—Micro-Assembly Technologies
MD2—Tuning Properties by Elastic Strain Engineering---From Modeling to Making and Measuring
MD3—Functional Oxide Heterostructures by Design
MD4—Phase-Change Materials and Applications
MD5—Fundamentals of Organic Semiconductors---Synthesis, Morphology, Devices and Theory
MD7—Advances in Lanthanide Materials for Imaging, Sensing, Optoelectronics and Recovery/Recycling
MD8—Multiscale Behavior of Materials in Extreme Environments
NT1—Functional Nanostructures and Metamaterials for Solar Energy and Novel Optical Phenomena
NT4—Emerging Non-Graphene 2D Materials
NT5—Nanodiamonds---Fundamentals and Applications
NT6—Colloidal Nanoparticles---From Synthesis to Applications
NT7—Nanoparticle Characterization and Removal
NT8—Silicon Nanostructures---Doping, Interface Effects and Sensing
SM1—Liquid Crystalline Materials---Displays and Beyond
SM10—Biofabrication-Based Biomaterials and Tissues
SM2—Bioinspired Dynamic Materials---Synthesis, Engineering and Applications
SM3—Soft Materials for Compliant and Bioinspired Electronics
SM4—Engineering Biointerfaces with Nanomaterials
SM5—Surfaces and Interfaces for Biomaterials
SM6—Transient and Biologically-Inspired Electronics
SM7—Future Healthcare Needs through Biomaterials, Bioengineering and the Cellular Building Block
SM8—Bioinspired Metal Nanoparticles---Synthesis, Properties and Application
SM9—Structure and Properties of Biological Materials and Bioinspired Designs
Meeting Chairs
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.
