Phonon catalysis could lead to a new field
By selectively heating specific phonons without heating the entire material, researchers have enhanced ion diffusion in a way that could have broad applications.
By selectively heating specific phonons without heating the entire material, researchers have enhanced ion diffusion in a way that could have broad applications.
SMART findings allow a new way to control light emitting from materials.
Work on three graphene-based devices may yield new insights into superconductivity.
Alfredo Alexander-Katz and Caroline Jones honored as “Committed to Caring.”
Design of miniature optical systems could lead to future cell phones that can detect viruses and more.
Study explores the mechanical properties of these materials as they evolve from elastic gels to glassy solids.
Fifth-year nuclear science and engineering graduate student Arunkumar Seshadri looks to develop materials and fuels that can better withstand the extreme conditions in nuclear reactors.
The membrane’s structure could provide a blueprint for robust artificial tissues.
The advance could accelerate engineers’ design process by eliminating the need to solve complex equations.
Sidney Pacific residents empower each other to sustain community togetherness.
MIT research team finds machine learning techniques offer big advantages over standard experimental and theoretical approaches.
By measuring a person’s movements and poses, smart clothes developed at MIT CSAIL could be used for athletic training, rehabilitation, or health-monitoring for elder-care facilities.
Graduate engineering and economics programs are No. 1 in the nation; MIT Sloan is No. 5.
A new approach to identifying useful formulations could help solve the degradation issue for these promising new lightweight photovoltaics.