Microsystems Technology Laboratories (MTL)

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  • Joel Voldman engineers cutting-edge approaches to stem cell signaling, point of care therapeutics, and neuroengineering. In the never-ending mega study of how biological systems work, Joel Voldman’s mission is to understand the most basic interactions between single cells. To achieve that, he applies the power of microfluidics to isolate the actions and behaviors of single cells and the interactions between cells.
  • Read about Tomas Palacios, the Emmanuel E. Landsman Associate Professor of Electrical Engineering and Computer Science at MIT, where he is a principal investigator in the Microsystems Technology Laboratories (MTL) in the July 3, 2013 MIT News Office article by Larry Hardesty titled "High potential - Tomás Palacios investigates use of ‘extreme materials’ in electronics, which could reduce energy consumption and make computers far faster."
  • CNN recently interviewed Tomas Palacios, Director of the MIT/MTL Center forf Grahene Devices and 2D Systems. Palacios, the Emmanuel E. Landsman Associate Professor of Electrical Engineering and Computer Science, described graphene's unique properties enabling it to conduct electric currents faster than in any other known material. He also provides a view of the potential for graphene's use in the future.
  • Dana Weinstein, the Steven G. ('68) and Renee Finn Career Development Assistant Professor of Electrical Engineering and Computer Science, and Laura Popa, a graduate student in physics at the MIT Microsystems Technology Laboratory (MTL) have developed a new method for manufacturing hardware-based radio-signal filtration. Their work should improve filtration performance while enabling 14 times as many filters per chip.
  • Building an effective Photovoltaic cell (PV) that both collects enough solar energy and carries the charge efficiently has held back the use of quantum dots despite their relative ease of production. Read more.
  • Tuesday, November 26th, 2013, 34-101, @4:15pm. Refreshments @ 4:00pm.
  • Abstract: This talk will discuss high throughput nanomanufacturing enabled by inkjet based UV nanoimprint lithography with a focus on (i) Design and real-time control of nanopatterning systems; and (ii) Customized systems and processes for applications including CMOS memory, patterned media for hard disk drives, flexible nanoelectronics, and shape/size controlled nanocarriers for targeted diagnostics and drug delivery. Biography: S.V. Sreenivasan specializes in high throughput nanomanufacturing as applied to electronics, biomedicine, and energy. He is the John T. MacGuire professor of mechanical engineering at UT-Austin; and co-founder of Molecular Imprints, Inc., a world leader in imprint based nanolithography technology.
  • Quantum Dots: From MIT to Market QD Vision spun out of MIT in 2005, with a broad technology suite, a business plan, and Series A funding from top-notch Boston-based venture capitalists. Despite several twists and turns of technology development and market evolution, QD Vision announced in January that our quantum dot-enabled Color IQTM components will be in 2013 Sony TVs, the first mainstream product launch of a QD device. This talk will describe the pathway, and pitfalls, to this milestone.

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