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Institute for Soldier Nanotechnologies

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National Defense Magazine

During a visit to MIT, National Defense Magazine reporter Sean Carberry met with Prof. John Joannopoulos to learn about how researchers at the Institute for Soldier Nanotechnologies (ISN) “are conducting serious research on nanotechnology that could have a big impact on the battlefield.” Carberry notes that ISN researchers conduct fundamental research and have transitioned “numerous technologies ranging from ‘nanostructure amplifying fluorescent polymers for ultra-sensitive explosive detection’ to photonic crystals that enable thermal photovoltaic power generation in a small device that could replace heavy batteries carried by troops.” 

National Defense Magazine

National Defense Magazine reporter Sean Carberry spotlights Mesodyne, an MIT startup that is developing a thermal photovoltaic power generator that could be used to help extend battery power during military missions. Mesodyne’s LightCell generator can deliver “high-efficiency direct current power from a quiet device with no moving parts that could change the equation of an operator carrying 100 pounds of batteries for a three-day mission,” Carberry explains. 

The Washington Post

Prof. Yoel Fink speaks with Washington Post reporter Pranshu Verma about the growing field of smart textiles and his work creating fabrics embedded with computational power. Fink and his colleagues “have created fibers with hundreds of silicon microchips to transmit digital signals — essential if clothes are to automatically track things like heart rate or foot swelling. These fibers are small enough to pass through a needle that can be sown into fabric and washed at least 10 times.”

Inverse

Researchers from MIT have developed a new fabric that can hear and interpret what’s happening on and inside our bodies, reports Elana Spivack for Inverse. Beyond applications for physical health the researchers envision that the fabric could eventually be integrated with “spacecraft skin to listen to [accumulating] space dust, or embedded into buildings to detect cracks or strains,” explains Wei Yan, who helped develop the fabric as an MIT postdoc. “It can even be woven into a smart net to monitor fish in the ocean. It can also facilitate the communications between people who are hard of [hearing].”

WHDH 7

Prof. Yoel Fink speaks with WHDH about his team’s work developing an acoustic fabric that can listen to and record sound, a development inspired by the human ear. "The fabric can be inserted into clothes to monitor heart rate and respiration. It can even help with monitoring unborn babies during pregnancy."

Bloomberg News

Bloomberg News spotlights how MIT researchers have developed a new material that works like a microphone, converting sounds into vibrations and then electrical signals. “The development means the possibility of clothes that act as hearing aids, clothes that answer phone calls, and garments that track heart and breathing rates,” writes Bloomberg News.

Popular Science

Researchers from MIT and the Rhode Island School of Design have developed a wearable fabric microphone that can detect and transmit soundwaves and convert them into electrical signals, reports Shi En Kim for Popular Science. “Computers are going to really become fabrics," says Prof. Yoel Fink. "We’re getting very close.”

The Daily Beast

MIT researchers have created a flexible fiber that can generate electrical impulses that are conveyed to the brain as sound, reports Miriam Fauzia for The Daily Beast. “The researchers see endless possibilities for their smart fabric,” writes Fauzia. “The obvious application is in improving hearing aids, which Fink said have trouble discerning the direction of sound, particularly in noisy environments. But the fabric could also help engineers design wearable fabrics that can measure vital signs, monitor space dust in new kinds of spacecraft, and listen for signs of deterioration in buildings like emerging cracks and strains.”

IEEE Spectrum

IEEE Spectrum reporter Prachi Patel writes that researchers from MIT and Google Brain have developed a new open-source tool that could streamline solar cell improvement and discovery. The new system should “speed up development of more efficient solar cells by allowing quick assessment of a wide variety of possible materials and device structures,” writes Patel.

TechCrunch

TechCrunch reporter Devin Coldewey writes that MIT researchers have created a new nanoengineered material that could prove tougher than Kevlar or steel. “Made of interconnected carbon ‘tetrakaidecahedrons,’ the material absorbed the impact of microscopic bullets in spectacular fashion,” writes Coldewey.