The masks have tiny, disposable sensors, referred to as Specific High-sensitivity Enzymatic Reporter unLOCKing (SHERLOCK). The sensors are freeze-dried, surrounded by a reservoir of water that is released when the wearer pushes a button, signaling that they're ready to be tested. When the freeze-dried components are hydrated, they analyze accumulated breath droplets and begin testing for COVID-19. Luis Soenksen, a Venture Builder at MIT’s Abdul Latif Jameel Clinic for Machine Learning in Health and a former postdoc at the Wyss Institute, and the other lead author of the study, tested hundreds of different fabrics for the mask. cnxps.cmd.push(function () { cnxps({ playerId: '36af7c51-0caf-4741-9824-2c941fc6c17b' }).render('4c4d856e0e6f4e3d808bbc1715e132f6'); });if(window.location.pathname.indexOf("656089") != -1){console.log("hedva connatix");document.getElementsByClassName("divConnatix")[0].style.display ="none";}A new face mask could diagnose those who wear it with COVID-19 within abo