Direct delivery
Cancer scientists believe nanoparticles could accurately target tumors, avoiding side effects.
Cancer scientists believe nanoparticles could accurately target tumors, avoiding side effects.
MIT analysis shows how synthetic systems for capturing the sun’s energy could be made more efficient.
MIT chemists engineer the periwinkle plant to produce compounds that could become more effective cancer drugs.
Storing thermal energy in chemical form has the potential to make it indefinitely storable and transportable.
Assistant professor honored for immunology work.
Event also features 2 high-school teams that won grants from the Lemelson-MIT Program.
Particles can deliver a combination of chemotherapy drugs directly to prostate-cancer cells.
Institute Professor cited for inventions, development
Postdoc, advisor recognized for significant contributions to renewable energy research
MIT alumnus Steven E. Koonin, DoE under secretary for science, says economics, not technology, is the driver.
MIT biological engineers have found a way to convert carbon-dioxide emissions to useful building materials, using genetically altered yeast.
MIT chemical engineers demonstrate a new way to dramatically boost bacteria’s manufacturing abilities.
New antenna made of carbon nanotubes could make photovoltaic cells more efficient by concentrating solar energy.
The tiny, multitalented carbon tubes can carry single molecules, one at a time.
New self-assembling photovoltaic technology can keep repairing itself to avoid any loss in performance.