A new approach to making airplane parts, minus the massive infrastructure
Carbon nanotube film produces aerospace-grade composites with no need for huge ovens or autoclaves.
Carbon nanotube film produces aerospace-grade composites with no need for huge ovens or autoclaves.
The MIT assistant professor is entranced by the beauty she finds pursuing chemistry.
Mechanical engineers are developing technologies that could prevent heat from entering or escaping windows, potentially preventing a massive loss of energy.
“Micromechanics informed alloy design: Overcoming scale-transition challenges” focuses on bridging scale gaps.
Cornell University professor and physicist uses nanoscale parts to create smart, active microbots.
Circuit design offers a path to “spintronic” devices that use little electricity and generate practically no heat.
Lam Research Tech Symposium, co-hosted by MIT.nano and Microsystems Technology Lab, explores challenges, opportunities for the future of the industry.
New material should be relatively easy to produce at an industrial scale, researchers say.
Courtyard space celebrates beloved professor’s research and mentorship.
New method overcomes limitations of existing chemical procedures and may accelerate nanoengineering of materials.
Cornell University’s Paul McEuen will inaugurate series to honor beloved MIT professor.
Coating particles with “right-handed” molecules could help them penetrate cancer cells more easily.
MIT and University of Colorado researchers are collaborating on an experiment to be sent to the International Space Station.
The process could work on the gas at any concentrations, from power plant emissions to open air.
Series featured five experts who played seminal roles in understanding the nanoscale.