Unlocking new science with devices that control electric power
Seron Electronics, founded by Mo Mirvakili PhD ’17, makes research equipment with applications including microelectronics, clean energy, optics, biomedicine, and beyond.
Seron Electronics, founded by Mo Mirvakili PhD ’17, makes research equipment with applications including microelectronics, clean energy, optics, biomedicine, and beyond.
Study shows neutrons can bind to nanoscale atomic clusters known as quantum dots. The finding may provide insights into material properties and quantum effects.
New research by a team of MIT engineers offers a guide for fine-tuning specific material properties.
International technology company becomes sustaining member of industry group.
Global Semiconductor Alliance’s Women’s Leadership Initiative provides inspiration and guidance to MIT students.
A collaboration between ACT and MIT.nano, the class 4.373/4.374 (Creating Art, Thinking Science) asks what it really takes to cultivate dialogue between disciplines.
Associate Professor Jeehwan Kim is exploring systems that could take over where silicon leaves off.
Study shows metal-organic particles can both deliver vaccines and act as an adjuvant to generate a strong immune response at a lower dose.
The work will help researchers tune surface properties of perovskites, a promising alternative and supplement to silicon, for more efficient photovoltaics.
An MIT team precisely controlled an ultrathin magnet at room temperature, which could enable faster, more efficient processors and computer memories.
The method lets researchers identify and control larger numbers of atomic-scale defects, to build a bigger system of qubits.
Awarded $65.67 million from ARPA-H, the researchers will work to develop ingestible capsules that deliver mRNA and electric stimuli to treat metabolic disorders such as diabetes.
The advanced fabrication tools will enable the next generation of microelectronics and microsystems while bridging the gap from the lab to commercialization.
State-of-the-art toolset will bridge academic innovations and industry pathways to scale for semiconductors, microelectronics, and other critical technologies.
Using a DNA-based scaffold carrying viral proteins, researchers created a vaccine that provokes a strong antibody response against SARS-CoV-2.