MIT team takes a major step toward fully 3D-printed active electronics
By fabricating semiconductor-free logic gates, which can be used to perform computation, researchers hope to streamline the manufacture of electronics.
Tiny magnetic discs offer remote brain stimulation without transgenes
The devices could be a useful tool for biomedical research, and possible clinical use in the future.
Bubble findings could unlock better electrode and electrolyzer designs
A new study of bubbles on electrode surfaces could help improve the efficiency of electrochemical processes that produce fuels, chemicals, and materials.
A two-dose schedule could make HIV vaccines more effective
MIT researchers find that the first dose primes the immune system, helping it to generate a strong response to the second dose, a week later.
MIT course helps researchers crack secrets of ancient pottery
A summer class teaches PhD students and early-career archaeologists ceramic petrography, revealing the origins and production methods of past societies.
AI model can reveal the structures of crystalline materials
By analyzing X-ray crystallography data, the model could help researchers develop new materials for many applications, including batteries and magnets.
Atoms on the edge
Physicists capture images of ultracold atoms flowing freely, without friction, in an exotic “edge state.”
A new approach to fine-tuning quantum materials
An MIT-led group shows how to achieve precise control over the properties of Weyl semimetals and other exotic substances.
With sustainable cement, startup aims to eliminate gigatons of CO₂
Sublime Systems, founded by Professor Yet-Ming Chiang and former postdoc Leah Ellis, has developed a sustainable way to make one of the world’s most common materials.
New substrate material for flexible electronics could help combat e-waste
Electronic waste is a rapidly growing problem, but this degradable material could allow the recycling of parts from many single-use and wearable devices.
MIT spinout Arnasi begins applying LiquiGlide no-stick technology to help patients
The company that brought you no-stick toothpaste is moving into the medical space, with a lubricant for ostomy pouches and other products that could improve millions of lives.
New transistor’s superlative properties could have broad electronics applications
Ultrathin material whose properties “already meet or exceed industry standards” enables superfast switching, extreme durability.
Proton-conducting materials could enable new green energy technologies
Analysis and materials identified by MIT engineers could lead to more energy-efficient fuel cells, electrolyzers, batteries, or computing devices.
Machine learning unlocks secrets to advanced alloys
An MIT team uses computer models to measure atomic patterns in metals, essential for designing custom materials for use in aerospace, biomedicine, electronics, and more.
AI method radically speeds predictions of materials’ thermal properties
The approach could help engineers design more efficient energy-conversion systems and faster microelectronic devices, reducing waste heat.