Step into the forefront of scientific discovery at the world’s leading international scientific gathering for materials research—the 2024 MRS Fall Meeting & Exhibit. Our annual fall event returns to the culturally-rich city of Boston, Massachusetts the week of December 1-6, 2024, and will take place at the Hynes Convention Center and adjacent Sheraton Boston Hotel.
The MRS Fall Meeting delivers a combination of interdisciplinary cutting-edge research, innovative technologies, and collaborative networking with the field’s leading minds, which leads to new discoveries in areas ranging from quantum materials to energy and sustainability.
With interactive exhibits, thought-provoking presentations and unlimited opportunities for collaboration, the 2024 MRS Fall Meeting & Exhibit is a must-attend event. Join us in Boston and be part of the innovation as our ever-evolving field continues to progress.
CH01—In Situ Characterization During Thin-Film Processing
CH02—Recent Advancements in Characterization and Modeling of Electrochemical Interfaces
CH04—Advanced Characterization Techniques and Methodologies for Battery Materials
CH05—Frontiers of Imaging and Spectroscopy in Transmission Electron Microscopy
CH06—Exploring Fast and Ultrafast Dynamics of Matter with Electrons and Photons
EL01—Low-Dimensional Luminescent Materials and Devices
EL02—Phase-Change Materials for Brain-like Computing, Embedded Memory and Photonic Applications
EL03—2D Materials—Nanofabrication and Applications
EL04—Recent Advances in Hybrid Perovskites
EL05—Materials and Devices for Neuromorphics, Biohybrid Systems and Smart Sensing
EL08—Diamond Functional Devices—From Material to Applications
EN01—Light-Harvesting Materials for Efficient and Stable Solar Fuels Production
EN02—Thin Film Chalcogenides for Energy Applications
EN03—Emergent Properties in Actinide Materials—Enabling Next-Generation Nuclear Energy Applications
EN04—Phase Change Materials for Energy Conversion and Storage
EN05—Electrodes for Chemical and Energy Conversion Technologies
EN06—Redox Flow-Based Electrochemical Systems
EN07—Multijunction Devices for Solar Energy Conversion
EN08—Materials Design and Discovery for Next-Generation Energy Storage Systems
EN10—Critical Materials for Energy—Extraction, Functionality and Recycling
EN11—Nitrogen-doped Carbon—From Fundamental Understanding to Applications in Electrochemical Devices
NM01—Nanotubes, Graphene and Related Nanostructures
NM02—Atomic Precision in Nanocluster Engineering
NM03—Engineering Ultra-Thin Chalcogenide Films
NM04—Exploring the Properties and Applications of Freestanding Membranes—From 2D to 3D
NM06—Emerging Trends in Nano- and Micro-structured Bioinspired Materials
NM07—Building Advanced Materials via Aggregation and Self-assembly
SB01—Electrifying Biomaterials—Frontiers of Biohybrid Devices
SB02—Biotronics—Soft Ionic and Electronic Devices for Biological Applications
SB03—Wood Nanoscience, Nanoengineering and Materials
SB04—Materials and Devices for In Vitro Cell—Tissue-Electronic Interfaces
SB05—Biomaterials for Regenerative Engineering
SB06—2D Materials for Theranostics
SB07—3D Bioinspired Biomaterials
SB08—Smart and Living Materials for Advanced Engineering Systems
SB09—Fundamental Processes at Electroactive Biological Interfaces
SB10—Soft Materials for Sensors and Actuators in e-textiles and e-skins
SB11—Biological and Bioinspired Polymers
Meeting Chairs
SEKI Diamond USA
University of Michigan
Boston University
Consiglio Nazionale delle Ricerche
Makerere University
Call for Papers
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.