Method for delivering immune system-stimulating drugs may enhance cancer immunotherapy
The targeted approach eliminated tumors in mice, with minimal side effects.
The targeted approach eliminated tumors in mice, with minimal side effects.
The rechargeable battery can be woven and washed, and could provide power for fiber-based electronic devices and sensors.
A new way of processing rare-earth and other key metals to separate them from other materials could reduce environmental impact and cost.
A new computational simulator can help predict whether changes to materials or design will improve performance in new photovoltaic cells.
Over 50 years at MIT, Dresselhaus made lasting contributions to materials science within the research group of longtime collaborator and wife, Mildred Dresselhaus.
Ultrastable and made of inexpensive, nontoxic elements, chalcogenide perovskites could find applications in solar cells, lighting, and more.
SMART researchers demonstrate a practical way to make indium gallium nitride LEDs with considerably higher indium concentration.
A new machine-learning system costs less, generates less waste, and can be more innovative than manual discovery methods.
New research on ancient Roman concrete inspires durable and sustainable modern constructions.
Awards support high-risk, high-reward biomedical and behavioral research.
The Great Glass Pumpkin Patch returns to MIT with 2,000 new pumpkins.
An electrical impedance tomography toolkit lets users design and fabricate health and motion sensing devices.
Reversible system can flip the magnetic orientation of particles with a small voltage; could lead to faster data storage and smaller sensors.
Sachin Bhagchandani wins NCI Predoctoral to Postdoctoral Fellow Transition (F99/K00) Award.
New property in an ultrathin cousin of graphene could allow for much denser computer memory.