I - Applied Physics and Devices

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  • Cited for her work as doctor, engineer and scientist to design nano and micro technologies that pioneer new ways to understand and fight disease, Sangeeta N. Bhatia, the John J. (1929) and Dorothy Wilson Professor of Electrical Engineering and Computer Science (EECS) and Institute for Medical Engineering and Science (IMES) has been awarded the Lemelson-MIT Prize. Read more.
  • A research team from the Singapore-MIT Alliance for Research and Technology including Jongyoon Han, professor of electrical engineering and computer science at MIT, has developed a new way to diagnose malaria using magnetic resonance relaxometry (MRR) — a technology that the group is adapting for inexpensive field deployable usage. Read more.
  • Professor Ruonan Han joined the EECS department at MIT as an assistant professor in July 2014. As a principal investigator with the Microsystems Technology Laboratories (MTL), Han will pursue work in ultra-high-speed circuits and systems. His research group, the Terahertz Integrated Electronics Group aims to explore microelectronic technologies to bridge the terahertz gap between microwave and infrared domains. Read more.
  • Researchers at MIT -- including EECS graduate student Abe Davis and EECS faculty members Fredo Durand and Bill Freeman, and members of the Computer Graphics Group in MIT's Computer Science and Artificial Intelligence Lab (CSAIL) have collaborated with colleagues at Microsoft and Adobe to develop an algorithm to reconstruct an audio signal produced by practically invisible vibrations of objects filmed in video and normally inaudible to human hearing. Read more.
  • Professor Qing Hu and graduate students in his research group, the Millimeter-wave and Terahertz Devices Group in the Research Laboratory of Electronics (RLE) and researchers from several outside research labs have published their breakthrough research on terahertz laser frequency combs, and are featured as the cover story of the June 2014 issue of Nature Photonics (June 2014, Volume 8 No 6). This research has applications from cancer detection to explosives sensing. Read more about this research on the RLE website.
  • The potential for multicore computing on a chip has gained new traction with the work by MIT Electrical Engineering and Computer Science (EECS) Department faculty member Li-Shiuan Peh and EECS graduate student Bhavya Daya as they present a new 36-core chip on which each core acts as a mini Internet using a router to complete a communication network for data transport, while keeping local data up to date. Read more.
  • Working with members of the Quantum Photonics Laboratory (QPL) under the direction of EECS assistant professor Dirk Englund, principal author Hannah Clevenson, EECS graduate student and Pierre Desjardins and Xuetao Gan have developed an optical gas sensor that provides an extremely sensitive and compact way to detect very small amounts of target molecules of gas before they disperse. Read more.
  • Vladimir Bulovic, the Fariborz Maseeh Professor of Emerging Technology and associate dean for innovation in MIT’s School of Engineering, with MIT professor of chemistry Moungi Bawendi and graduate students Chia-Hao Chuang and Patrick Brown have developed new quantum dot photovoltaic cells that demonstrate significant efficiency in solar cells with no need for high temperature or vacuum conditions to operate -- or to be produced. Read more.
  • Marc Baldo, MIT professor of electrical engineering has teamed with MIT’s Troy Van Voorhis, professor of chemistry and other researchers to understand the theory behind singlet excitonic fission -- a process by which extra electrons are produced by incoming photonic energy -- first observed in the 1960s. This new understanding of what materials will generate this added energy has potential for creating solar cells that demonstratew up to 25 per cent increased efficiency. Read more.

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