Fast Company reporter Kristin Toussaint writes about how MIT researchers have developed a new technique for growing wood-like plant tissues in the lab. The work, they say, is still in its very early stages, but provides a starting point to a new way of producing biomaterials. “It’s a process that eventually could help accelerate our shift away from plastics and other materials that end up in landfill toward materials that can biodegrade,” writes Toussaint.
TechCrunch reporter Darrell Etherington writes that MIT researchers have developed a new method for growing plant tissues in a lab. “Potential applications of lab-grown plant material are significant,” writes Etherington, “and include possibilities in both agriculture and in construction materials.”
A sensor developed by MIT researchers could make diagnosing sepsis easier, quicker and more affordable, reports Darrell Etherington for TechCrunch. Etherington explains that the sensor, which “employs microfluidics to detect the presence of key proteins in the blood,” could have “a huge potential impact, as sepsis is one of the leading causes of death in hospitals.”
Prof. Max Shulaker has fabricated the first foundry-built silicon wafer, a monolithic 3D carbon nanotube integrated circuit, reports Samuel K. Moore for IEEE Spectrum. “We’ve completely reinvented how we manufacture this technology,” explains Shulaker, “transforming it from a technology that only worked in our academic labs to a technology that can and is already today working inside a commercial fabrication facility within a U.S. foundry.”
Reporting for Scientific American’s “60-Second Science” podcast, Christopher Intagliata explores how MIT developed a device, called a rectenna, that can capture energy from Wi-Fi signals and convert them into electricity. The scientists “envision a smart city where buildings, bridges and highways are studded with tiny sensors to monitor their structural health, each sensor with its own rectenna,” Intagliata explains.
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.
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.”
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.”
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.”
Postdoctoral associate Phillip Nadeau speaks with CBC reporter Nora Young about a new ingestible electronic device developed by MIT researchers that could potentially be used to transmit patient data or deliver medications. Young explains that the new device “doesn't require a battery, because it's able to create an electrical current from the acid in your stomach.”
TechCrunch reporter Brian Heater writes that MIT researchers have developed a speech recognition chip that uses a fraction of the power of existing technologies. “The chip is essentially designed to be always on in a low-power mode, switching over when voice is detected, thus making it ideal for technologies like wearable devices,” Heater explains.
MIT researchers have developed an ingestible device that is powered by stomach acid and can deliver drugs for up to one week, reports Brooks Hays of UPI. "Our work helps pave the way toward a new era of pill-sized electronics, which can operate over the course of weeks or even months in the gastrointestinal tract,” says Giovanni Traverso, a research affiliate at the Koch Institute.
In an article for Forbes, Bill Hardekopf highlights a new hack-proof chip developed by MIT researchers. Hardekopf explains that the chip could help make credit cards more secure.
Boston.com reporter Hilary Sargent writes that MIT researchers have developed a new device that could help guide the visually impaired. Sargent explains that a prototype system the researchers developed “is about the size of a binoculars case and is designed to be worn around someone’s neck.”
MIT engineers have developed an ultralow-power circuit that can efficiently harvest energy from solar power, reports Robert Ferris for CNBC. Ferris explains that the circuit “lends itself well to creating self-powering electronic sensors that can be used in a wide range of applications.”