Prof. John Goodenough, who shared the 2019 Nobel Prize in chemistry for his work developing the lithium-ion battery, has died at age 100, reports Jim Vertuno for the AP. Goodenough “began his career at the Massachusetts Institute of Technology, where his research laid the groundwork for development of random-access memory for the digital computer.”
Washington Post reporter Brian Murphy memorializes the life and work of Prof. John Goodenough, who worked at MIT Lincoln Laboratory for over 20 years. Goodenough was “an American scientist who shared a Nobel Prize for helping create the lithium-ion battery that powered the mobile tech revolution and provides the juice for electric cars, but who later raised worries about a design that relies on scarce natural resources,” writes Murphy.
New York Times reporter Robert D. McFadden highlights the work of Prof. John Goodenough, a scientist who worked at MIT's Lincoln Laboratory for over 20 years and played a “crucial role in developing the revolutionary lithium-ion battery” has died at age 100. “At MIT’s Lincoln Laboratory in the 1950s and ’60s, he was a member of teams that helped lay the groundwork for random access memory (RAM) in computers and developed plans for the nation’s first air defense system,” writes McFadden.
Researchers at MIT have developed a new artificial intelligence system aimed at helping autopilot avoid obstacles while maintaining a desirable flight path, reports Kyle Wiggers for TechCrunch. “Any old algorithm can propose wild changes to direction in order to not crash, but doing so while maintaining stability and not pulping anything inside is harder,” writes Wiggers.
Researchers from Lincoln Laboratory and NASA are working on the TROPICS mission to study tropical cyclones, reports Bella Isaacs-Thomas for the PBS NewsHour. “Technology today — finally — allows us to miniaturize these satellites, fly a lot of them and get that temporal update that we’ve been wanting for so long,” explains Laboratory Fellow William Blackwell.
Researchers from Lincoln Lab and NASA are working on the TROPICS research mission, an effort to collect meteorological data on tropical storms from mini satellites, reports Daniel Cusick for Scientific American. "Scientists will observe temperature profiles in space that would be favorable to storm formation at the Earth’s surface, then use a weather prediction model and radiometric imagery to better predict how such storms would behave," Cusick writes.
Research scientist Ryan Hamerly and his team are working to harness “the low power consumption of hybrid optical devices for smart speakers, lightweight drones and even self-driving cars,” reports The Economist.
Popular Science reporter Helen Bradshaw writes that MIT researchers have improved the energy capacity of nonrechargeable batteries, the batteries used in pacemakers and other implantable medical devices, by employing a new type of electrolyte. “Expanding the life of primary batteries may also make them sustainable contenders,” writes Bradshaw. “Fewer batteries will have to be used in pacemakers as their lifespans increase, decreasing overall battery waste in addition to reducing the number of battery replacement surgeries needed.”
Alexander Sludds, a graduate student in MIT’s Research Lab for Electronics, joins Megan Cantwell on the Science magazine podcast to discuss his team’s new method for processing data on edge devices, which are devices that connect two networks together.
Prof. Jesús del Alamo speaks with Ira Flatow of NPR’s Science Friday about the importance of the CHIPS Act and the pressing need to invest in semiconductor manufacturing in the U.S. “There is a deep connection between leading-edge manufacturing and innovation,” says del Alamo. “Whoever gets the most advanced technology first in the marketplace is going to rip off the greatest profits, and as a result is going to be able to invest into innovation at a greater level and therefore be able to move faster than their competitors.”
Prof. Jesús del Alamo speaks with Ann Fisher of WOSU’s All Sides with Ann Fisher about the importance of supporting domestic chip manufacturing in the U.S., and the need to help encourage students to pursue careers in the semiconductor industry. “Universities and colleges train over 50% of the semiconductor workforce,” says del Alamo, “and so investing in education, investing in the infrastructure, both human but also physical infrastructure that supports education and research, is really critical in the long run.”
Associate Group Leader at the Lincoln Laboratory, William (Bill) Blackwell is the principal investigator for NASA’s TROPICS mission, which is preparing to launch small satellites into space to help better track the development of tropical storms, reports Justine Calma for The Verge. “With more frequent observations from these satellites, scientists hope to better understand how tropical storms grow and intensify,” writes Calma.
Gizmodo reporter Passant Rabie writes that researchers from MIT Lincoln Laboratory developed a tiny gold-coated satellite called the TeraByte InfraRed Delivery (TBIRD) system with the goal of beaming “down data at the fastest rate ever achieved by space lasers.”
MIT announced five projects "targeting the world's toughest climate riddles" that were selected following a rigorous two-year competition, reports Benjamin Kail for Boston Business Journal. “Climate Grand Challenges represents a whole-of-MIT drive to develop game-changing advances to confront the escalating climate crisis, in time to make a difference,” says President L. Rafael Reif.
Chiamaka Agbasi-Porter, the K-12 STEM outreach coordinator for Lincoln Lab, speaks with CBS Boston about her mission to help inspire young people to pursue STEM interests through the Lincoln Laboratory Radar Introduction for Student Engineers (LLRISE) program. “I think of it as a community,” said Agbasi-Porter, “we are a village that is helping our kids advance and move forward in their careers.”