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Inventing disruptive technologies for nanoelectronic devices and creating new paradigms for life-machine symbiosis
AbstractDevices that facilitate nonverbal communication typically require high computational loads or have rigid and bulky form factors&n...
The rapid advancement of electronic devices and fabrication technologies has further promoted the field of wearables and smart textiles. ...
Converting the patterns of nature and the human body into beneficial signals and energy
Revealing insights into the human condition and repairing brain disorders via novel tools for mapping and fixing brain computations
We have pioneered the development of fully genetically encoded reagents that, when targeted to specific cells, enable their physiology to...
For more details and recent updates visit: https://web.mit.edu/deblina-sarkar/We are developing nano-devices using meta-m...
For more details and recent updates visit: https://web.mit.edu/deblina-sarkar/Nanoelectronics has the potential to enable radi...
For more details and recent updates visit: https://web.mit.edu/deblina-sarkar/Electronics are ubiquitous in today’s world, wit...
For more details and recent updates visit: https://web.mit.edu/deblina-sarkar/Sensors, especially biosensors, are indispensabl...
For more details and recent updates visit: https://web.mit.edu/deblina-sarkar/For understanding the brain structure, it is nec...
The finding opens up avenues to the development of integrated circuits that have extremely low power consumption.
Entrepreneurial science award recognizes scientists whose work opens up “new dimensions of economic progress."
New research group aims to bridge the gap between nanotechnology and synthetic biology.