J-WAFS grants advance sustainable agriculture
Two new J-WAFS Solutions commercialization grants will support novel technologies that aim to improve the economics and resiliency of farming.
Two new J-WAFS Solutions commercialization grants will support novel technologies that aim to improve the economics and resiliency of farming.
On-chip system that detects signals at sub-terahertz wavelengths could help steer driverless cars through fog and dust.
Mechanical engineering alumni and married couple Larissa Nietner and Scott Nill started their relationship — and two companies — as MIT graduate students.
Process developed at MIT could turn concentrated brine into useful chemicals, making desalination more efficient.
Alto Pharmacy uses software and an innovative operations model to improve access to medication.
Overactive repair system promotes cell death following DNA damage by certain toxins, study shows.
J-WAFS-funded MIT research team shows a new method of fertilizer production can better suit the needs of farms in Africa and around the globe.
Members have made advances in molecular processes, rheology, computer networking, nanocrystalline metals, affective computing, and semiconductor tech.
New system of “strain engineering” can change a material’s optical, electrical, and thermal properties.
MIT associate professor of aeronautics and astronautics describes the seamless flow of people, things, and materials.
The prestigious awards are supporting five innovative projects that challenge established norms and have the potential to be world-changing.
Students say they're enthusiastic about the new MIT-Imperial Academic Exchange pilot program.
Graduate students from around the world showcase research projects at MIT.
Technique sheds light on cells’ health and development; may be useful for precision medicine.