Quantum materials: A new paradigm for computing?
Diamond spintronics and graphene-based infrared detectors are among leading-edge technologies reported at annual Materials Day Symposium at MIT.
Diamond spintronics and graphene-based infrared detectors are among leading-edge technologies reported at annual Materials Day Symposium at MIT.
Quantum process increases the number of electrons produced when light strikes a metal-dielectric interface.
Jeffrey Grossman applies new materials research to making desalination cheaper and more efficient.
Materials Matter competition, inspired by MIT research, seeks innovations that could help transform the way we view, make, and use materials.
A former Bosnian refugee — and new CEE faculty member — finds parallels in his life, his research, and a current political crisis.
Associate professor's work on topological insulators and atomically thin materials yields new, laser-driven approaches to materials for electronics.
Materials Day, Oct. 14, presents insights into the next generation of extremely thin, tough quantum materials for sensing, energy. and computing devices.
Like biological channels, graphene pores are selective for certain types of ions.
Eugene Fitzgerald pursues new models for innovation in electronics as part of the Singapore-MIT Alliance for Research and Technology.
MIT-led team develops method for scaling up production of thin electronic material.
MIT graduate student Takuma Inoue tackles labeling RNA without genetic modification for doctoral studies.
Material could replace precious metals and produce precisely controlled electrochemical reactivity.
Lionel Kimerling, Rajeev Ram, and other MIT researchers explore practical ways to bring optical interconnection toward and directly onto chips.
New family of luminescent materials could find broad uses in chemical and biological detectors.