Reversing hearing loss with regenerative therapy
MIT spinout Frequency Therapeutics’ drug candidate stimulates the growth of hair cells in the inner ear.
MIT spinout Frequency Therapeutics’ drug candidate stimulates the growth of hair cells in the inner ear.
Faculty leaders detail promising technologies, materials, and methods that could help unlock a low-carbon future in sectors where emissions are hardest to cut.
A new membrane material could make purification of gases significantly more efficient, potentially helping to reduce carbon emissions.
Virtual conference gathered students, faculty, and industry partners to explore the future of microsystems and nanotechnology.
Faculty leaders describe their efforts to develop potentially game-changing tools.
Postdoc Francesco Benedetti strives to make a positive impact — from helping to form supportive student groups to tackling industrial energy waste.
The protein subunit vaccine, which can be manufactured using engineered yeast, has shown promise in preclinical studies.
Inspired by the human ear, a new acoustic fabric converts audible sounds into electrical signals.
Chemical engineers use neural networks to discover the properties of metal-organic frameworks, for catalysis and other applications.
MIT chemical engineers create affordable, sustainable soap-based system to eliminate emerging micropollutants in water.
Seventeen new professors join the MIT community, with research areas ranging from robotics and machine learning to health care and agriculture.
PhD student Nidhi Juthani has built a deep foundation in science to inform a career in the private sector.
The annual event aims to realize the promise of "new normal" education through community and technology.
The material could replace rare metals and lead to more economical production of carbon-neutral fuels.
A new analysis offers guidance on the size of nanoparticles that could be most effective at stopping internal bleeding.