Research — MIT Media Lab

We are an interdisciplinary research lab working to invent the future of

art
health
human-machine interaction
artificial intelligence
learning
robotics
design
architecture
technology
consumer electronics
kids
music
wearable computing
politics
networks
bioengineering
data
human-computer interaction
entertainment
machine learning
economy
cognition
sensors
history
social science
archives
space
environment
storytelling
wellbeing
interfaces
computer science
covid19
developing countries
prosthetics
engineering
ethics
civic technology
biology
privacy
social robotics
social media
public health
alumni
communications
civic media
imaging
industry
augmented reality
synthetic biology
urban planning
community
neurobiology
computer vision
creativity
affective computing
virtual reality
food
biotechnology
transportation
biomechanics
data visualization
energy
social change
government
data science
ocean
zero gravity
materials
startup
social networks
genetics
manufacturing
blockchain
3d printing
agriculture
medicine
prosthetic design
racial justice
gaming
fabrication
banking and finance
behavioral science
climate change
diversity
construction
women
fashion
cryptocurrency
cognitive science
open source
systems
neural interfacing and control
bionics
crowdsourcing
security
marginalized communities
performance
civic action
collective intelligence
makers
microfabrication
wiesner
microbiology
extended intelligence
electrical engineering
autonomous vehicles
language learning
internet of things
human augmentation
ecology
perception
interactive
natural language processing
nonverbal behavior
mapping
visualization
physiology
physics
chemistry
mechanical engineering
water
nanoscience
clinical science
holography
long-term interaction
gesture interface
sports and fitness
primary healthcare
soft-tissue biomechanics
networking
trust
point of care
voice
orthotic design
autism research
member company
pharmaceuticals
rfid
open access
hacking
mechatronics
clinical trials
trade
biomedical imaging
academia
member event
real estate
code
gender studies
publishing
event
randomized experiment
gis
assistive technology
exhibit
cartography
metamaterials
installation

Deblina Sarkar receives the NIH Director's New Innovator Award

She is being recognized by the NIH for unusually innovative work in the development of biomedical implants that defy the need for surgery.

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Space Exploration Initiative

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Nano-Cybernetic Biotrek

Inventing disruptive technologies for nanoelectronic devices and creating new paradigms for life-machine symbiosis

Project Research

Life-Nanomachine Synergism

For more details and recent updates visit: https://web.mit.edu/deblina-sarkar/Nanoelectronics has the potential to enable radica…

Article Research

Cell Rover: Exploring and augmenting the inner world of the cell

MIT researchers describe an intracellular antenna that's compatible with 3D biological systems + can operate wirelessly inside a living cell

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Conformable Decoders

Converting the patterns of nature and the human body into beneficial signals and energy

Project Research

Nanoscale mapping of bio-molecular building blocks of brain

For more details and recent updates visit: https://web.mit.edu/deblina-sarkar/For understanding the brain structure, it is neces…

Article Research

Microscopy technique reveals hidden nanostructures in cells and tissues

Separating densely packed molecules before imaging allows them to become visible for the first time.

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Molecular Machines

Engineering at the limits of complexity with molecular-scale parts

Project Research

Nano-Implants for Wireless Brain Interfacing

For more details and recent updates visit: https://web.mit.edu/deblina-sarkar/We are developing nano-devices using meta-mat…

Project Research

Ultra-sensitive electrical biosensors for point-of-care applications

For more details and recent updates visit: https://web.mit.edu/deblina-sarkar/Sensors, especially biosensors, are indispensable …

Article Research

Flat transistor defies the limit

The finding opens up avenues to the development of integrated circuits that have extremely low power consumption.

Article Research

With the HUMANS project, a message that space is for everyone

Supported by the Space Exploration Initiative, the student-run HUMANS project aims to increase global representation in space.

Project Research

Ultra-scalable and energy-efficient nanoelectronics

For more details and recent updates visit: https://web.mit.edu/deblina-sarkar/Electronics are ubiquitous in today’s world, with …

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Project Research

conformable Facial Code Extrapolation Sensor (cFaCES)

AbstractDevices that facilitate nonverbal communication typically require high computational loads or have rigid and bulky form factors&nbs…

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Project Research

A tailored, electronic textile conformable suit for large-scale spatiotemporal physiological sensing in vivo

The rapid advancement of electronic devices and fabrication technologies has further promoted the field of wearables and smart textiles. Ho…

Post Research

Frequently Asked Questions: A tailored, electronic textile conformable suit for large-scale spatiotemporal physiological sensing in vivo

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Synthetic Neurobiology

Revealing insights into the human condition and repairing brain disorders via novel tools for mapping and fixing brain computations

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Project Research

Optogenetics: Molecules enabling neural control by light

We have pioneered the development of fully genetically encoded reagents that, when targeted to specific cells, enable their physiology to b…

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Article Research

Ed Boyden wins prestigious Wilhelm Exner Medal

Entrepreneurial science award recognizes scientists whose work opens up “new dimensions of economic progress."

Article Research

Deblina Sarkar joins the MIT Media Lab faculty

New research group aims to bridge the gap between nanotechnology and synthetic biology.