Undersea living: Alumna joins Cousteau mission
What’s it like living on the bottom of the ocean for more than two weeks? Nicer than you might think, according to Grace Young ’14.
New material structures bend like microscopic hair
Researchers say structures may be used in windows to wick away moisture.
Kellis to lead MIT team in new phase of GTEx project to elucidate basis of disease predisposition
NIH-sponsored work to characterize genetic variation in human tissues with roles in diabetes, heart disease, and cancer.
Learning how things fall apart
New research reveals how bonded materials, from airplane wings to dental crowns, lose their bonding.
Model of viral lifecycle could help in finding a cure for hepatitis B
New technique sustains virus in liver cells, allowing study of immune response and drug treatments.
Advanced thin-film technique could deliver long-lasting medication
Nanoscale, biodegradable drug-delivery method could provide a year or more of steady doses.
Following biological clues to better materials
Brad Olsen creates bioinspired and biofunctional materials for widely diverse applications.
Extracting audio from visual information
Algorithm recovers speech from the vibrations of a potato-chip bag filmed through soundproof glass.
Research team that includes CSAIL's Devadas receives major NSF award
Modular Approach to Cloud Security project aims to build cloud systems with multilayered security
“Active” surfaces control what’s on them
Researchers develop treated surfaces that can actively control how fluids or particles move.
Light pulses control graphene’s electrical behavior
Finding could allow ultrafast switching of conduction, and possibly lead to new broadband light sensors.
A new way to make microstructured surfaces
Method can produce strong, lightweight materials with specific surface properties.
GEARing technology for developing markets
Amos Winter designs, builds, and delivers products for underserved populations around the world.