Carbon nanotube-based sensor can detect SARS-CoV-2 proteins
The technology could be developed as a rapid diagnostic for Covid-19 or other emerging pathogens.
The technology could be developed as a rapid diagnostic for Covid-19 or other emerging pathogens.
The Max Planck Society and Alexander von Humboldt Foundation honor the MIT physicist's work on two-dimensional quantum materials.
Reversible system can flip the magnetic orientation of particles with a small voltage; could lead to faster data storage and smaller sensors.
Using nanoparticles that store and gradually release light, engineers create light-emitting plants that can be charged repeatedly.
SMART nanosensors are safer and less tedious than existing techniques for testing plants’ response to compounds such as herbicides.
3D lithography tool will provide ultra-precise creation of complex 3D structures at the micro- and nanoscale.
The commonplace phenomenon, now quantified for the first time, could be harnessed for many useful applications.
MIT-Jordan Abdul Hameed Shoman Foundation Seed Fund winners announced.
New findings might help inform the design of more powerful MRI machines or robust quantum computers.
A student-run project is collecting messages from around the world, using nanotechnology to etch them on a disk, and sending the disk to the International Space Station.
“Committee on the Environment” recognizes integration of design excellence with environmental performance.
Diagnostic nanoparticles could be used to monitor tumor recurrence after treatment or to perform routine cancer screenings.
A scattering-type scanning nearfield optical microscope offers advantages to researchers across many disciplines.
SAMCO inductively coupled plasma etcher can process multiple materials at various sizes.
MIT researchers train a neural network to predict a “boiling crisis,” with potential applications for cooling computer chips and nuclear reactors.