MIT researchers have discovered the molecular structure of a protein that plays a key role in the coronavirus’ ability to replicate itself and stimulate the host cell’s inflammation response, reports Travis Anderson for The Boston Globe. “If researchers can find a way to ‘block this channel,’” writes Anderson, “then they might be able to reduce the ‘pathogenicity of the virus’ and also obstruct viral replication.”
Popular Mechanics reporter Kyro Mitchell spotlights how MIT researchers have created a new material, inspired by camel fur, that could be used to help insulate food and medical supplies. “Field tests on the new material show that it can provide cooling of more than seven degrees Celsius,” writes Mitchell. “It can also maintain that low temperature for five times longer than using hydrogel alone.”
Smithsonian reporter Corryn Wetzel spotlights how MIT researchers have developed a new technology inspired by camel fur that could be used to keep food and medical supplies chilled. The researchers hope the new system could be applied to “lots of areas that require passive cooling—meaning no external energy needs to power the process. Possible applications include insulating food storage, medical supplies and buildings.”
MIT researchers have created a new material that mimics camel fur and could be used to help keep food and medical supplies cool without electricity, reports Layal Liverpool for New Scientist. “We achieve evaporation and insulation at the same time, extending the cooling period significantly,” explains Prof. Jeffrey Grossman.
CNBC reporter Charlie Wood features tProf. Connor Coley's work developing a new system that could be used to help automate molecule manufacturing. “It tries to understand, based on those patterns, what kind of transformations should work for new molecules it’s never seen before,” says Coley.
Institute Professor Emeritus Mario Molina, who former Vice President Al Gore called a “trailblazing pioneer of the climate movement,” has died at age 77, reports John Schwartz for The New York Times. Molina shared a “Nobel Prize for work showing the damage that chemicals used in hair spray and refrigerators wreak on the ozone layer, which led to one of the most successful international efforts to combat environmental risk.”
Guardian reporter Fiona Harvey memorializes the life and work of Institute Professor Emeritus Mario Molina, known for his research uncovering the impact of CFCs on the ozone layer. Harvey notes that Molina’s work, “will also help to avert ruin from that other dire emergency, the climate crisis.”
Institute Professor Emeritus Mario Molina, known for his work demonstrating the risk of CFCs to the ozone layer, has died at age 77, reports Emily Langer for The Washington Post. Langer notes that Molina was also “a prominent voice in debates about how best to combat climate change.”
Writing for Science, Derek Lowe spotlights how MIT researchers are developing a platform that could be used to automate the production of molecules for use in medicine, solar energy and more. “The eventual hope is to unite the software and the hardware in this area,” reports Lowe, “and come up with a system that can produce new compounds with a minimum of human intervention.”
MIT researchers have developed a new method for potentially increasing solar cell efficiency beyond the theoretical limit, reports Daniel Oberhaus for Wired. “What’s cool here is that this is a fundamentally different approach from traditional photovoltaics,” says Joseph Berry of the National Renewable Energy Laboratory.
A new study by MIT researchers provides evidence that life on Earth may have begun in shallow bodies of water, reports Martin Finucane for The Boston Globe. The researchers found that ponds “could have held high concentrations of a key ingredient, nitrogen, while that would have been less likely in the ocean,” Finucane explains.
A new study by MIT researchers provides evidence that the first life on Earth likely came from shallow ponds, not oceans, reports the Xinhua news agency. The researchers found that primitive ponds that were about “10 centimeters deep had higher concentrations of nitrogen, a key ingredient for life on Earth.”
Prof. John Deutch proposes a demonstration project to show how renewable energy could provide 95 percent of electricity generation, reports Jeff McMahon for Forbes. Deutch suggests “setting up a competition between energy developers, allowing them to bid on a 20-year contract to provide a system that meets 95 percent of demand in an area using solar, wind and storage alone.”
Writing for Smithsonian, Leila McNeill spotlights Ellen Swallow Richards, the first female student at MIT, who was known for her work using chemistry as a tool to help empower women. “By harnessing the knowledge that women in the home already had and then applying scientific principles,” writes McNeill, “Richards believed women would spark a change that would resonate beyond the kitchen table and transform society.”
MIT researchers have developed a new technique to measure cancer cells that provides insight into how certain cells respond to treatment, reports the Xinhua news agency. The findings could be used to help develop new drug targets, making current treatments more effective.