New system designs nanomaterials that conduct heat in specific ways
The technique could be used to fabricate computer chips that won’t get too hot while operating, or materials that can convert waste heat to energy.
The technique could be used to fabricate computer chips that won’t get too hot while operating, or materials that can convert waste heat to energy.
Cobalt-based catalysts could be used to turn mixed plastic waste into fuel, new plastics, and other products.
The ceramic-based material could be used for highly efficient actuators for aircraft or other uses, with minimal moving parts.
MIT researchers demonstrate an intracellular antenna that's compatible with 3D biological systems and can operate wirelessly inside a living cell.
Founded by MIT chemical engineers and winner of an XPRIZE Carbon Removal milestone award, Verdox is working to move the needle on climate change.
By providing researchers with financial and strategic support from the early stages, the Innovation Center hopes to bring new and disruptive technologies to market.
MIT researchers find that changing the pH of a system solves a decades-old problem.
The device senses and wirelessly transmits signals related to pulse, sweat, and ultraviolet exposure, without bulky chips or batteries.
The Massachusetts senator toured MIT.nano and held a roundtable with university leaders to discuss how the new law could advance research and education in the state.
Engineers working on “analog deep learning” have found a way to propel protons through solids at unprecedented speeds.
Cheap and quick to produce, these digitally manufactured plasma sensors could help scientists predict the weather or study climate change.
Researchers have found a material that can perform much better than silicon. The next step is finding practical and economic ways to make it.
The findings of a large-scale screen could help researchers design nanoparticles that target specific types of cancer.
This family of crystalline compounds is at the forefront of research seeking alternatives to silicon.
Systems used in many industries could save energy through these new surface treatments.