3D printing a miniature magnetic pump
Design is the first demonstration of a magnetic, multi-material pump 3D printed all in one piece.
Design is the first demonstration of a magnetic, multi-material pump 3D printed all in one piece.
MIT system cuts the energy required for training and running neural networks.
Micro/nano processing course fabricates devices in MIT.nano’s facilities.
Student committee puts together research showcase while balancing coursework, qualifying exams, and extracurriculars.
Series featured five experts who played seminal roles in understanding the nanoscale.
MIT and IBM researchers offer a new method to train and run deep learning models more efficiently.
New approach harnesses the same fabrication processes used for silicon chips, offers key advance toward next-generation computers.
Low-cost “piezoelectric” films produce voltage, could be used for flexible electronic components and more.
When time matters in hospitals, automated system can detect an early biomarker for the potentially life-threatening condition.
Researchers unveil a tool for making compressed deep learning models less vulnerable to attack.
Prestigious honor society announces more than 200 new members.
Algorithm designs optimized machine-learning models up to 200 times faster than traditional methods.
On-chip system that detects signals at sub-terahertz wavelengths could help steer driverless cars through fog and dust.
Device made from flexible, inexpensive materials could power large-area electronics, wearables, medical devices, and more.
Inexpensive 3-D-printed microfluidics device could be used to personalize cancer treatment.