Microfluidics

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71 items matching your criteria.
PATTERN TRANSFER WITH ADDITIVE TECHNIQUES (Chapter 3) [46%]
MEMS technology and applications have grown at a tremendous pace, while structural dimensions have grown smaller and smaller, reaching down even to the ...
Chapter 1.5 [46%]
MEMS technology and applications have grown at a tremendous pace, while structural dimensions have grown smaller and smaller, reaching down even to the ...
PATTERN TRANSFER WITH ADDITIVE TECHNIQUES (Chapter 3) [46%]
MEMS technology and applications have grown at a tremendous pace, while structural dimensions have grown smaller and smaller, reaching down even to the ...
Pennathur, Sumita [46%]
Professor Pennathur's research group focuses on using fundamental fluidics knowledge at both micro- and nano -scales to create novel devices for practical ...
Chapter 2: Pattern Transfer with Dry Etching Techniques - Problem Set [46%]
MEMS technology and applications have grown at a tremendous pace, while structural dimensions have grown smaller and smaller, reaching down even to the ...
California Institute of Technology [45%]
The California Institute of Technology Nanofabrication Group, under the leadership of Professor Axel Scherer, is primarily interested in the design, ...
Dr. Yoke Khin Yap at Michigan Technological University [44%]
MEMS technology and applications have grown at a tremendous pace, while structural dimensions have grown smaller and smaller, reaching down even to the ...
Dr. Ji Ying Sze at University of California, Irvine [44%]
MEMS technology and applications have grown at a tremendous pace, while structural dimensions have grown smaller and smaller, reaching down even to the ...
Dr. Michel Bergeron (M.D.) at University of Laval, Canada [44%]
MEMS technology and applications have grown at a tremendous pace, while structural dimensions have grown smaller and smaller, reaching down even to the ...
Kim, Jungbae [43%]
Fundamentals of Microfabrication: The Science of Miniaturization, Second Edition [40%]
<p>MEMS technology and applications have grown at a tremendous pace, while structural dimensions have grown smaller and smaller, reaching down even to the ...
University of Oregon [39%]
The University of Oregon (Eugene) Materials Science Institute brings together an interdisciplinary approach to nanotechnology, uniting faculty from Chemistry ...
Tang, Mary X. [39%]
Dr. Tang's research interests fall where biology meets miniaturization technologies: microfluidics, bioanalytical chips, DNA biophysics, self-assembling ...
Caltech - NanoSystems Biology Cancer Center [39%]
The Nanosystems Biology Cancer Center (NSBCC) is organized to take advantage of the state-of-the-art in chemistry, materials, and physics of nanotechnology ...
Oregon State University (OSU) [38%]
OSU's is offering a Nanotechnology Process Option, developed in partnership with Oregon Nanoscience and Microtechnologies Institute (ONAMI), Oregon's first ...
Madou, Marc J. [37%]
Chancellor's Professor of Mechanical and Aerospace Engineering at UC Irvine. Recent research projects include Carbon Microelectromechanical System (C-MEMS), ...
Eastman Kodak Company [33%]
Eastman Kodak Company (NYSE: EK) is an American multinational public company which produces photographic materials and equipment. Long known for its wide range ...
Ito, Takashi [31%]
Specialized areas: Analytical Chemistry, Nanomaterials, Electrochemistry, and Microfluidics
Chapter 2: Pattern Transfer with Dry Etching Techniques [31%]
MEMS technology and applications have grown at a tremendous pace, while structural dimensions have grown smaller and smaller, reaching down even to the ...

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