All the possibilities of the cleanroom
MIT-trained electrical engineer Jorg Scholvin guides researchers fabricating new technology at MIT.nano.
MIT-trained electrical engineer Jorg Scholvin guides researchers fabricating new technology at MIT.nano.
With new techniques in electron microscopy, James LeBeau explores the nanoscale landscape within materials to understand their properties.
Provider of ultra-high resolution 3D printing becomes sustaining member of industry group.
In an MIT summer research program, Rita Anoh learned about molecular machines and the value of collaborations.
Researchers develop a technique for precisely arranging nanoscale particles on a surface, such as a silicon chip, that doesn’t damage the material.
Digital twins to expand training capabilities through virtual reality.
New tools can accommodate samples from small pieces up to 200 mm wafers.
A system for monitoring motion and muscle engagement could aid the elderly and athletes during unsupervised physical rehabilitation for injuries or impaired mobility.
The technique could be used to fabricate computer chips that won’t get too hot while operating, or materials that can convert waste heat to energy.
Graduate students create on-campus assembly factory for fiber extrusion devices.
The Massachusetts senator toured MIT.nano and held a roundtable with university leaders to discuss how the new law could advance research and education in the state.
Engineers working on “analog deep learning” have found a way to propel protons through solids at unprecedented speeds.
Systems used in many industries could save energy through these new surface treatments.
Study shows what happens when crystalline grains in metals reform at nanometer scales, improving metal properties.
Global Semiconductor Alliance’s Women’s Leadership Initiative highlights career opportunities for women in hard technology.