WCVB-TV’s Mike Wankum visits MIT to learn more about Prof. Nicholas Fang’s work developing a new film that can be coated on windows and can block up to 70 percent of incoming solar heat. Wankum explains that the film “could lead to a future with less need for air conditioning.”
Nature reporter Elizabeth Gibney spotlights Prof. Pablo Jarillo-Herrero’s discovery that graphene can act as a superconductor when twisted to a magic angle. “I haven’t seen this much excitement in the graphene field since its initial discovery,” said ChunNing Jeanie Lau, a professor at Ohio State University, of the impact of Jarillo-Herrero’s findings.
Prof. Donald Sadoway speaks with CBC News reporter Paul Hunter about his work developing a rechargeable battery that is big enough to power an entire neighborhood, and uses liquid metals and molten salt. Hunter writes that “Sadoway's invention is radically different from anything else in the market.”
Prof. Pablo Jarillo-Herrero’s discovery that when graphene is rotated to a “magic angle” it can act as a high-temperature superconductor has been named the Physics World 2018 Breakthrough of the Year. Physics World reporter Hamish Johnston writes that the “discovery led to the development of ‘twistronics’, which is a new and very promising technique for adjusting the electronic properties of graphene.”
UPI reporter Tauren Dyson writes that MIT researchers have developed a coating that can reject up to 70 percent of incoming solar heat. “The film resembles transparent plastic wrap, implanted with tiny microparticles that contain water that releases when met with temperatures higher than 85 degrees Fahrenheit,” Dyson explains.
MIT researchers have developed a new see-through film that reflects 70 percent of the sun’s incoming heat and could be used to coat a building’s windows, reports the Xinhua news agency. The material, “can cool a building while still letting in a good amount of light, offering an affordable and energy-efficient alternative to existing smart window technologies,” Xinhua explains.
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.
IEEE Spectrum reporter Mark Anderson highlights how Prof. Jeehwan Kim’s research group has developed techniques to produce ultrathin semiconducting films and harvest the materials necessary to manufacture 2-D electronics. Anderson explains that the group’s advances could make possible such innovations as high-efficiency solar cells attached to a car’s exterior and low-power, long-lasting wearable devices.
MIT researchers have developed a gel-like polymer that uses carbon dioxide from the air to grow, strengthen, and repair itself, reports Mu Xuequan for the Xinhua News Agency. “Although, it is not yet strong enough to be used as a building material, it could function as a crack filling or coating material,” Xuequan notes.
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.
Prof. Yoel Fink speaks with BBC Click about his work developing fabrics embedded with light-emitting diodes that could help keep pedestrians safe. Fink explains that the fabric can detect the lights from an oncoming vehicle and establish an “affirmative link between the car and pedestrian.”
Prof. C. Cem Tasan speaks with BBC News reporter Chris Baraniuk about the potential for self-healing metals. Baraniuk explains that Tasan and his team are “investigating metals containing tiny structures that resist crack growth in each stress cycle.”
Boston Globe reporter Martin Finucane writes that MIT researchers have developed sensors that can track dopamine levels in the brain. The sensors could eventually be used to monitor “Parkinson’s patients who receive a treatment called deep brain stimulation,” Finucane explains, adding that the sensors could “help deliver the stimulation only when it’s needed.”
MIT researchers have identified how blood cells clump together in patients with sickle-cell disease, writes Shi Yinglun for the Xinhua News Agency. Yinglun explains that the findings represent "a step toward being able to predict when these events known as vaso-occlusive pain crises might occur.”
MIT scientists have developed a new coating that uses solar-power to melt and prevent ice buildup, reports the Xinhua News Agency. The coating, which does not use harmful chemicals, “collects solar radiation, converts it to heat, and spreads that heat around so that the melting is not just confined to the areas exposed directly to the sunlight.”