Shrinking the carbon footprint of a chemical in everyday objects
New method for synthesizing the epoxides found in plastics, textiles, and pharmaceuticals could be powered by electricity.
New method for synthesizing the epoxides found in plastics, textiles, and pharmaceuticals could be powered by electricity.
Coating graphene with wax makes for a less contaminated surface during device manufacturing.
Growing material directly onto substrates and recycling chip patterns should enable faster, simpler manufacturing.
MIT leads AIM Photonics Academy’s development of a technician-training apprenticeship program.
Machine-learning approach could help robots assemble cellphones and other small parts in a manufacturing line.
Faculty in the Department of Mechanical Engineering are developing technologies that store, capture, convert, and minimize greenhouse gas emissions.
System breaks down complex designs into easily modifiable shapes for custom manufacturing and 3-D printing.
Inexpensive 3-D-printed microfluidics device could be used to personalize cancer treatment.
Technologies ranging from a hurricane-evacuation decision platform to algorithms that compare DNA samples honored as some of the world's best inventions of 2018.
Researchers have designed a novel printhead that works with unprecedented speed and pioneered ways to melt and extrude renewable materials.
CSAIL's new RePaint system aims to faithfully recreate your favorite paintings using deep learning and 3-D printing.
Researchers uncover the factors that have caused photovoltaic module costs to drop by 99 percent.
SHASS faculty members offer research-based perspectives with commentaries, plus a Music for the Midterms playlist, and an election book list.
Fibers containing systems for mixing, separating, and testing fluids may open up new possibilities for medical screening.
Leaders from industry, academia, labor, government, foundations, and other organizations, as well as leading scholars in related fields, will provide guidance.