Donated instrument provides undergraduate chemistry students high-level research experience
Cutting edge-tool reserved exclusively for students is fast, efficient, and environmentally friendly.
Cutting edge-tool reserved exclusively for students is fast, efficient, and environmentally friendly.
Biological sensors developed by MIT spinout Glympse Bio could help clinicians make decisions for individual patients.
Structure may reveal conditions needed for high-temperature superconductivity.
Company specializing in atomic force microscopy to advise, collaborate with MIT researchers.
Self-assembly of Kevlar-inspired molecules leads to structures with robust properties, offering new materials for solid-state applications.
Manipulating materials at a fundamental level, Ju Li reveals new properties for energy applications.
New design could speed reaction rates in electrochemical systems for pulling carbon out of power plant emissions.
Facility within MIT.nano offers equipment and capabilities for visualizing data, creating immersive environments.
SMART researchers use Raman spectroscopy for early detection of SAS, which can help farmers better monitor plant health and improve crop yields.
Physicist and Harvard University professor discusses silicon vacancies, reflects on inspiration from Mildred Dresselhaus.
Nanoscale devices integrated into the leaves of living plants can detect the toxic heavy metal in real time.
System uses machine learning to analyze boundaries between crystal grains, allowing for selection of desired properties in a new metal.
Once deemed suitable only for high-speed communication systems, an alloy called InGaAs might one day rival silicon in high-performance computing.
Applications and challenges of sensing technology have been accelerated by Covid-19.
NCSOFT-sponsored grants to advance hardware and software for immersive experiences.