Search Results - %22Physical+Sciences%22+and+%22MEMS%22

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Controllable Laser Fabrication of Conical Nano-Tips on Semiconductor Thin Films
Field emitter displays (FED) represents the next phase in display technology. A team of researchers at Wayne State University has invented a new process that creates consistently sized and uniformly spaced nano-sized conical tips on semiconductor thin films that may have application in a number of areas including field emitter arrays for flat-panel...
Published: 2/6/2014   |   Inventor(s): Ivan Avrutsky, Daniel Georgiev, Ronald Baird, Golam Newaz, Gregory Auner
Keywords(s): Semiconductor
Category(s): Physical Sciences, Materials, MEMS, Nanomaterials, Thin films
Marangoni Optofluidic Tweezers (MOT)
There is currently a great deal of interest in using small droplets as containers for chemical reactions. Optical methods for droplet manipulation are attractive because they offer control without an on chip structure; however forces from optical tweezers tend to be in the pN range. Wayne State University researchers have developed a new method...
Published: 3/31/2014   |   Inventor(s): Amar Basu, Gopakumar Kamalakshakurup
Keywords(s):  
Category(s): MEMS, Microfluidics, Physical Sciences, Instrumentation, Optics & Photonics
Nano-beaker array formation process and its use for high-throughput loading and crystallization screening and other lab-on-the-chip applications
Wayne State University researchers have invented a novel process to make array patterns and its use for high-throughput screening of crystallization conditions, liquid solution applications, and other lab-on-the-chip applications. The formation process is a variation of “particle lithography” in which microparticles such as polystyrene microparticles...
Published: 2/6/2014   |   Inventor(s): Guangzhao Mao, Daniel Sobczynski, Sunxi Wang, Eugene Xhahysa, Pedram Jahanian
Keywords(s): Nanotechnology
Category(s): Physical Sciences, Microfluidics, MEMS, Research tools, Life Science, Other
Integrated Optical Polarizer for Silicon-on-Insulator Waveguides
Integrated optics based on silicon-on-insulator platforms are developing extremely fast due to technological compatibility with complementary metal-oxide-semiconductor (CMOS) fabrication process widely accepted in microelectronics. Wayne State researchers have developed a technology which generates an integrated optical polarizer for high index...
Published: 2/6/2014   |   Inventor(s): Ivan Avrutsky
Keywords(s): Fiber Optic, Optical, Photonic, Polarizer
Category(s): Physical Sciences, Optics & Photonics, MEMS, Materials, Thin films
A Flexible Biocompatible Graphene Sensor for Point-of-care Diagnosis
A Wayne State University researcher has developed a novel method applying graphene to sensitive, high-throughput, multiplexing, for label-free and low-cost electrical biosensing applications. Graphene is a flat single layer of sp2 bonded carbon atoms that are packed in a honey comb lattice, and have shown to have exceptional electronic, mechanical,...
Published: 2/6/2014   |   Inventor(s): Mark MinG-Cheng Cheng
Keywords(s):  
Category(s): Materials, Diagnostics, Life Science, Other, MEMS, Nanomaterials, Physical Sciences, Sensors
Novel Method of Making 3-Dimensional Neural Probes
WSU researchers have developed a unique design for neural probes with both electrical and chemical interfaces, via arrays metal electrodes and micro-channels that can be easily manufactured and folded in 3D arrays. The fabrication process is post-CMOS compatible allowing simple, reliable and cost effective construction of the all the components. Methods...
Published: 2/6/2014   |   Inventor(s): Yong Xu, Yuefa Li
Keywords(s): Biotechnology, Drug Delivery, Epilepsy, Microchannels, Neural Probes, Neuroscience
Category(s): Drug Delivery, Life Science, Medical Devices, Other, MEMS, Microfluidics, Physical Sciences, Sensors
Microfluidic Particle Concentration and Separator
Researchers at the Wayne State University Smart Sensors and Integrated Microsystems (SSIM) laboratory have developed a micro-scale concentrator and separator applicable to several microfluidic applications. Initially the device was developed to concentrate and separate bacteria from other impurities to test water quality however the micro separator...
Published: 2/6/2014   |   Inventor(s): Gregory Auner, ChunG-Chu Chen
Keywords(s): Biotechnology
Category(s): Physical Sciences, Microfluidics, MEMS
Vibration Energy Harvesting Device Based on Air-Spaced Piezoelectric Cantilevers
WSU researchers have designed an energy harvesting device using an air-space piezoelectric cantilever instead of the piezoelectric bimorph. Current vibration energy harvesting devices typically employ piezoelectric bimorph or a bimorph with a shim in the middle. The use of the air-space cantilevers produces numerous advantages compared to conventional...
Published: 3/31/2014   |   Inventor(s): Yong Xu, Zhou Wang
Keywords(s):  
Category(s): Acoustics, Electronics, MEMS, Physical Sciences, Sensors