MIT researchers are developing a smart bandage that could monitor and help heal wounds, according to Reuters. Prof. Xuanhe Zhao explains that if sensors in the bandage detected “an abnormal increase in temperature, for example, it will send out a command. Then the controlled drug delivery system can deliver a specific drug to that specific location.”
MIT researchers have developed a new bandage that can detect infection and automatically release medication, reports Jordan Graham for The Boston Herald. “We are trying to design long-term, high-efficiency interfaces between the body and electronics,” explains Prof. Xunahe Zhao.
NBC News reporter Maggie Fox writes that MIT researchers have developed a stretchy, wet bandage that can deliver medications. The device could “carry a thermometer to continuously measure skin temperature, or tiny devices to keep an eye on blood sugar levels for someone with diabetes.”
Writing for Popular Science, Lindsey Kratochwill reports that MIT researchers have discovered that the hundreds of eyes on a chiton's shell can see. Kratochwill explains that the researchers hope that by “understanding how these eyes work and the materials that make them up could lead to manmade materials that are both protective and perceptive of their environments.”
Atlantic reporter Ed Yong writes that MIT researchers have found that chitons, a type of mollusk, have a suit of armor dotted with hundreds of eyes that can perceive objects. The researchers found that chitons could “detect the shape of a 20-centimeter fish from a few meters away.”
MIT researchers have developed a new hydrogel that is 90 percent water, reports Carmen Drahl for Forbes. The new hrydogel “adheres to surfaces like glass, titanium, aluminum, and ceramics with a toughness approximating that of nature’s interfaces between tendons and bone."
MIT researchers have developed a new material that mimics the cuttlefish’s ability to change texture, reports Gian Volpicelli for Wired. "We used ordinary plastic," explains graduate student Mark Guttag. "The important thing was figuring out the right difference in stiffness between the matrix and particles."
“A team of researchers from MIT has created sensitive metallic polymers that change color in response to chemical or physical variations in their surroundings,” writes Alexandra Ossola for Popular Science. “The gel could be used as a litmus test to detect if particular pollutants are present in an environment.”
A team led by Prof. Stephen Buchwald has developed single-use capsules that could make chemistry experiments less labor intensive, writes Carmen Drahl for Forbes. “We’re always looking for ways to make our chemistry more user-friendly,” says Buchwald.
In a Boston Globe article about the high level of patent activity in Massachusetts, Emeralde Jensen-Roberts highlights MIT postdoctoral fellow Keith Hearon’s work developing a new type of biodegradable styrofoam, which he is patenting. “Now in the development phase, Hearon believes the citrus plastic with styrofoam has vast potential for larger-scale applications, thanks to its strength.”
Jamie Ducharme of Boston Magazine writes about a polymer gel being developed by researchers from MIT and Massachusetts General Hospital that could allow for swallowable medical devices. “Improving slow-release safety could open the door for devices that control hunger in obese patients, diagnose gastrointestinal issues, extend the effects of drugs, and more,” Ducharme explains.
MIT researchers have “developed a new ring-like device made of a polymer that can deliver drugs to the stomach over the course of a week,” writes Alexandra Ossola for Popular Science. The team anticipates that the technology could be used for a variety of medical applications.
Scott Kirsner writes for BetaBoston about 24M Technologies, a company co-founded by Professor Yet-Ming Chiang that has produced a safer, cheaper, and more durable lithium-ion battery. “We’re reinventing the lithium ion battery,” says Chiang. “The cost of the product is too high, and the manufacturing process is too complex.”
Scott Kirsner writes for BetaBoston about 24M Technologies, a company co-founded by Professor Yet-Ming Chiang that has produced a safer, cheaper, and more durable lithium-ion battery. “We’re reinventing the lithium ion battery,” says Chiang. “The cost of the product is too high, and the manufacturing process is too complex.”
MIT researchers have designed a 3D-printed soft material with a modifiable surface texture inspired by the cuttlefish, writes Maria Temming for Scientific American. The team “discovered their modifiable surfaces are not only useful for camouflage but a spectrum of other applications.”