New system allows optical “deep learning”
Neural networks could be implemented more quickly using new photonic technology.
Neural networks could be implemented more quickly using new photonic technology.
Mark Bathe develops molecular packages for targeted delivery of drugs, vaccines, and gene-editing tools.
First “center of excellence” for new MIT.nano facility will focus on novel detectors and imaging systems.
Process for positioning quantum bits in diamond optical circuits could work at large scales.
Nanofluidic device enables rapid testing of protein drugs produced by living cells.
Associate professor receives honor for young academics who combine outstanding teaching with impressive independent scholarship in the chemical sciences.
Platform may be used to explore avenues for quantum computing.
Used in filtration membranes, ultrathin material could help make desalination more productive.
Materials researcher is working on the magnetic memory of the future.
New research on ready-to-use therapeutic food seeks drastic reduction in fatalities from severe acute malnutrition in India.
Tissue-expansion technique could allow scientists to map brain circuits.
“Quantum dots” that emit infrared light enable highly detailed images of internal body structures.
“Synthetic biomarkers” could be used to diagnose ovarian cancer months earlier than now possible.
Beckman Foundation grant helps secure cryo-electron microscopy at MIT.nano facility.