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Scientific American

Scientific American reporter Jeff Hecht writes that MIT researchers developed a new flexible material that can harvest energy from wireless signals. “The future of electronics is bringing intelligence to every single object from our clothes to our desks and to our infrastructure,” explains Prof. Tomás Palacios.

Guardian

MIT researchers developed a super-thin, bendy material that converts WiFi signals into electricity, reports Ian Sample for The Guardian. “In the future, everything is going to be covered with electronic systems and sensors. The question is going to be how do we power them,” says Prof. Tomás Palacios. “This is the missing building block that we need.”

Xinhuanet

MIT researchers have developed a remote-controlled ingestible capsule that can be operated by a user’s smartphone, reports the Xinhua news agency. “The researchers envisioned that this type of sensor could be used to diagnose early signs of disease and then respond with the appropriate medication,” Xinhua explains.

HealthDay News

HealthDay News reporter E.J. Mundell writes that MIT researchers have developed an ingestible capsule that can be used to monitor health a patient’s health. “The capsule could deliver drugs as well as sense the condition of its surroundings in the gut, including infections or allergic reactions,” Mundell explains.

Popular Mechanics

Researchers from MIT are using the brittle nature of graphene to mass produce cell-sized robots, writes David Grossman of Popular Mechanics. Called “syncells” or synthetic cells, the researchers hope they can be used in biomedical testing. “Inject hundreds into the bloodstreams and let the data fly back into sensors,” explains Grossman.

Financial Times

Financial Times reporter Jemima Kelly reports that MIT researchers have developed a low-power chip that is hardwired to perform public-key encryption. Kelly writes that the chip is “potentially a game-changer for simple, low-powered products such as smart sensors used by industry to gauge things such as temperature and pressure, as well as health monitors.”

CNBC

CNBC reporter Andrew Zaleski writes that MIT researchers have developed a neuromorphic chip design that could help advance the development of computers that operate like humans. The design could “lead to processors capable of carrying out machine learning tasks with dramatically lower energy demands,” Zaleski explains. 

co.design

Researchers at the Tangible Media Group have developed “programmable droplets” of water that can be used to communicate words. “One potential application is a mirror that, when steamed, allows someone to display a message from a smartphone” writes Jesus Diaz for Co.Design. “The larger idea is to provoke surprise and delight, the way only the natural world can.”

Popular Mechanics

Researchers at MIT have developed a “kirigami” film, based off of the ancient paper-folding technique of the same name, that can be used for bandaging tricky areas like the knee or elbow, writes David Grossman for Popular Mechanics. “We are the first group to find, with a systematic mechanism study, that a kirigami design can improve a material’s adhesion,” says postdoc and lead researcher Ruike Zhao.

Forbes

A new paper from graduate students in EECS details a newly-developed chip that allows neural networks to function offline, while drastically reducing power usage. “That means smartphones and even appliances and smaller Internet of Things devices could run neural networks locally” writes Eric Mack for Forbes.

TechCrunch

MIT researchers have designed a new chip to enhance the functionality of neural networks while simultaneously reducing the consumption of power, writes Darrell Etherington of TechCrunch. “The basic concept involves simplifying the chip design so that shuttling of data between different processors on the same chip is taken out of the equation,” he explains.

The Verge

MIT researchers have designed a new chip that could advance the development of computers that operate like the human brain, reports James Vincent for The Verge. The development could, “lead to processors that run machine learning tasks with lower energy demands — up to 1,000 times less. This would enable us to give more devices AI abilities like voice and image recognition.”

Bloomberg News

Bloomberg News reporters Tim Loh and Patrick Martin feature Prof. Jeffrey Grossman’s work turning coal into thin strips of durable film that can conduct electricity. “You can get them up to like 300 Celsius (572 degrees Fahrenheit),” Grossman explains. “That is by far much, much better than other kinds of thin-film heaters.’’

IEEE Spectrum

IEEE Spectrum reporter Dexter Johnson writes that MIT researchers have developed a technique for producing cheaper semiconductor wafers using graphene. The method could “make the use of exotic semiconductors more accessible to industries by preparing semiconductor thin films without the high cost of using bulk wafers.”

Wired

MIT researchers have developed a new low-power chip that could make voice control practical for simple electronic devices, reports Tim Moynihan for Wired. While other speech-processing platforms use the cloud to process voice commands, “the MIT chip handles much more of that processing itself.”