‘Artificial leaf’ makes fuel from sunlight
Solar cell bonded to recently developed catalyst can harness the sun, splitting water into hydrogen and oxygen.
A heart of gold
New cardiac patch uses gold nanowires to enhance electrical signaling between cells, a promising step toward better treatment for heart-attack patients.
Ultrasensitive particles offer new way to find cancer
Tiny particles that measure microRNA levels in tissue samples could help diagnose and monitor many diseases.
Mimicking biological complexity, in a tiny particle
New MIT technology could lead to better drug delivery and artificial tissues that imitate natural tissue.
Research update: Improving batteries’ energy storage
New method allows a dramatic boost in capacity for a given weight.
New material could offer hope to those with no voice
MIT and Harvard researchers are developing a synthetic material to revitalize damaged vocal cords.
Research update: New way to store sun’s heat
Modified carbon nanotubes can store solar energy indefinitely, then be recharged by exposure to the sun.
While you’re up, print me a solar cell
New MIT-developed materials make it possible to produce photovoltaic cells on paper or fabric, nearly as simply as printing a document.
Layer upon layer
Method holds promise for making two- or three-tier graphene films that could be used for new electronic devices.
Scientists reveal HIV weakness
Vaccines that target newly identified viral protein sequences could be more effective than previous efforts.
How to choose a catalyst
MIT researchers provide a simple principle to predict which materials will perform best in fuel cells and metal air batteries.