Search Results - "Lifton, V A"

Superhydrophobic membranes with electrically controllable permeability and their application to "smart" microbatteries by Lifton, V. A., Taylor, J. A., Vyas, B., Kolodner, P., Cirelli, R., Basavanhally, N., Papazian, A., Frahm, R., Simon, S., Krupenkin, T.

“…Electrically tunable membranes with controllable permeability have been experimentally demonstrated by combining nanostructured and microstructured…”
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Robust Si-Based Membranes for Fluid Control in Microbatteries Using Superlyophobic Nanostructures by Lifton, V A, Simon, S

“…Mechanically robust superhydrophobic Si-based membranes are described. The membranes are prepared using microelectromechanical-systems-type processing and…”
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Design and Fabrication of Addressable Microfluidic Energy Storage MEMS Device by Lifton, V. A., Simon, S., Holmqvist, J., Ebefors, T., Jansson, D., Svedin, N.

“…Design and fabrication of microfluidic energy storage devices that are based on the control of the liquid electrolyte inside a power cell are presented. A…”
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Stress control structures for microelectromechanical systems using structural mechanics approach by Krupenkin, T., Lifton, V. A., Tran, A., Vuillemin, J., Carr, D. W.

“…A method of stress control in microelectromechanical systems (MEMS) devices is presented that consists of creating counterbalancing structures to position…”
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Polyimide Spacers for Flip-Chip Optical MEMS by Lubecke, V.M., Pardo, F., Lifton, V.A.

“…Multichip integration provides an attractive means to overcome space limitations for large-port-count optical microelectromechanical systems (MEMS) routing…”
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Reserve battery architecture based on superhydrophobic nanostructured surfaces by Lifton, Victor A., Simon, Steve, Frahm, Robert E.

“…This letter presents the details of a novel battery architecture based on superhydrophobic nanostructured materials. Both electrodes of a battery are formed on…”
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