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This unassuming material is capable of capturing or releasing carbon dioxide from the atmosphere in response to moisture swings.
Pulling carbon dioxide out of the air using moisture
A more efficient way to capture fresh water from the air
Bringing transformative potential to agriculture with a natural technology for ‘dimming’ genes
Staving off coral reef collapse via a new technique
Producing energy from evaporating tap or seawater with new nanoscale devices
Setting the stage for regenerative therapy by turning skin cells into limb cells

MIT Media Lab

June 11, 2019

The MIT Media Lab is an antidisciplinary research laboratory at the Massachusetts Institute of Technology, growing out of MIT’s Architecture Machine Group in the School of Architecture

A wearable patch that applies painless ultrasonic waves to the skin to deliver drugs

A wearable patch that applies painless ultrasonic waves to the skin to deliver drugs

A comfortable form-fitting smart fabric recognizes its wearer’s activities, like walking, running, and jumping

A comfortable form-fitting smart fabric recognizes its wearer’s activities, like walking, running, and jumping

Better control of prosthetic limbs using magnets

Better control of prosthetic limbs using magnets

Giving robots superhuman perception

Giving robots superhuman perception

An interactive touchscreen display that can be sprayed in any shape

An interactive touchscreen display that can be sprayed in any shape

Could proteins halt the severe cytokine storms seen in Covid-19 patients?

Could proteins halt the severe cytokine storms seen in Covid-19 patients?

The dawn of cyborg botany : Introducing a plant-robot hybrid

Elowan is a cybernetic lifeform, a plant in direct dialogue with a machine. Using its own internal electrical signals, the plant is interfaced with a robotic extension that drives it toward light. Plants are electrically active systems. They get bio-electrochemically excited and conduct these signals  between tissues and organs. Such electrical signals are produced in

The dawn of cyborg botany : Introducing a plant-robot hybrid

Simple, scalable wireless system uses the RFID tags on billions of products to sense food contamination

Simple, scalable wireless system uses the RFID tags on billions of products to sense contamination. MIT Media Lab researchers have developed a wireless system that leverages the cheap RFID tags already on hundreds of billions of products to sense potential food contamination — with no hardware modifications needed. With the simple, scalable system, the researchers

Simple, scalable wireless system uses the RFID tags on billions of products to sense food contamination

Exploring the ethics of autonomous vehicles globally and regionally

Massive global survey reveals ethics preferences and regional differences. A massive new survey developed by MIT researchers reveals some distinct global preferences concerning the ethics of autonomous vehicles, as well as some regional variations in those preferences. The survey has global reach and a unique scale, with over 2 million online participants from over 200

Exploring the ethics of autonomous vehicles globally and regionally

Wireless water-air communications breakthrough for data transmission between underwater and airborne devices

In a novel system developed by MIT researchers, underwater sonar signals cause vibrations that can be decoded by an airborne receiver. MIT researchers have taken a step toward solving a longstanding challenge with wireless communication: direct data transmission between underwater and airborne devices. Today, underwater sensors cannot share data with those on land, as both

Wireless water-air communications breakthrough for data transmission between underwater and airborne devices

Your new tattoo could also monitor your health without batteries

Researchers aim beyond wearables with project combining art, medicine Harvard and MIT researchers have developed smart tattoo ink capable of monitoring health by changing color to tell an athlete if she is dehydrated or a diabetic if his blood sugar rises. The work, conducted by two postdoctoral fellows at Harvard Medical School and colleagues led by Katia Vega at MIT’s

Your new tattoo could also monitor your health without batteries

Making 3-D imaging 1,000 times better

Algorithms exploiting light’s polarization boost resolution of commercial depth sensors 1,000-fold MIT researchers have shown that by exploiting the polarization of light — the physical phenomenon behind polarized sunglasses and most 3-D movie systems — they can increase the resolution of conventional 3-D imaging devices as much as 1,000 times. The technique could lead to

Making 3-D imaging 1,000 times better

Biomedical imaging at one-thousandth the cost

Mathematical modeling enables $100 depth sensor to approximate the measurements of a $100,000 piece of lab equipment MIT researchers have developed a biomedical imaging system that could ultimately replace a $100,000 piece of a lab equipment with components that cost just hundreds of dollars. The system uses a technique called fluorescence lifetime imaging, which has

Biomedical imaging at one-thousandth the cost

Glasses-free 3-D projector

New design could also make conventional 2-D video higher in resolution and contrast. Over the past three years, researchers in the Camera Culture group at the MIT Media Lab have steadily refined a design for a glasses-free, multiperspective, 3-D video screen, which they hope could provide a cheaper, more practical alternative to holographic video in the short term.

Glasses-free 3-D projector

Printed Electronics: A Multi-Touch Sensor Customizable With Scissors

A new circuit layout makes it robust against cuts, damage, and removed areas. If a pair of long pants is too long, it is cut to length. A board that does not fit into a bookcase is sawed to the right length. People often customize the size and shape of materials like textiles and wood

Printed Electronics: A Multi-Touch Sensor Customizable With Scissors

Downloadable Soil Sensors Can Be Printed by Local Farmers

In the future farmers will be able to download their own sensors To help farmers irrigate their crops more efficiently and save water, Yoshihiro Kawahara, an Associate Professor in the department of Information and Communication Engineering at The University of Tokyo, developed paper-printable sensors that provide real-time measurements of soil moisture. Kawahara worked with researchers from Georgia Institute of

Downloadable Soil Sensors Can Be Printed by Local Farmers

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