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Microfabrication
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#	Item
1	Silicon micro-masonry using elastomeric stamps for three-dimensional microfabrication Add to Reading List Source URL: rogers.matse.illinois.edu - Date: 2012-05-07 17:51:38
2	“Microfabrication Techniques: the Route from Hard 2D to Soft 3D Devices” Dr. Seyedhamidreza Alaie Department of Radiology, Weill Cornell Medicine, New York, NY Monday August 15, a.m.) at UNM Center for High Add to Reading List Source URL: www.chtm.unm.edu - Date: 2016-08-10 17:37:04
3	Microfabrication Project Proposal Form Principle Investigator: (Person responsible for project) Name: ____________________________________ ________ Department: _____________________ _________________ __ E-Mail Addr Add to Reading List Source URL: www.camd.lsu.edu Language: English - Date: 2016-02-15 14:25:41 Computing Louisiana State University V-12 Navy College Training Program Commodore Amiga MIDI Driver Email
4	Origami MEMS and NEMS John Rogers, Yonggang Huang, Oliver G. Schmidt, and David H. Gracias In a manner reminiscent of macroscale bending and folding techniques such as origami, the out-of-plane assembly of lithographical Add to Reading List Source URL: rogers.matse.illinois.edu Language: English - Date: 2016-02-12 23:09:14 Paper folding Visual arts Origami Rigid origami Mathematics of paper folding Miura fold Microfabrication
5	High-sensitivity microfluidic calorimeters for biological and chemical applications Wonhee Lee, Warren Fon, Blake W. Axelrod, and Michael L. Roukes1 Kavli Nanoscience Institute, California Institute of Technology, Pasade Add to Reading List Source URL: nano.caltech.edu Language: English - Date: 2011-06-02 13:26:46 Calorimetry Nanotechnology Materials science Technology Thermodynamics Calorimeter Parylene Measuring instrument Differential scanning calorimetry Microfluidics Microfabrication Lab-on-a-chip
6	Laser µFAB™ MICROFABRICATION WORKSTATION Newport’s Laser µFAB is a table-top easy to use micromachining tool for various applied materials research fields. This device combines the flexibility and accessibility of Add to Reading List Source URL: www.spectra-physics.jp Language: English - Date: 2012-05-30 22:12:48 Optics Photonics Raman scattering Laser Microscopy Microelectromechanical systems Raman spectroscopy
7	PUBLICATIONS REFEREED JOURNAL ARTICLES 1. Desautels, T., Choe, J., Gad, P., Nandra, M., Roy, R., Zhong, H., Tai YC, Edgerton, Add to Reading List Source URL: mems.caltech.edu Language: English - Date: 2015-09-15 14:58:31 Chih-Ming Ho Polymers Materials science Parylene Microfabrication Chemistry BWF Grand Prix Gold and Grand Prix
8	FABRICATION OF 3D POLYMER-METAL NANO-COMPOSITES IN A SINGLE STEP BY TWO-PHOTON INDUCED POLYMERISATION AND METAL SALT REDUCTION Qin Hu, Yaan Liu, Yinfeng He, Fan Zhang, Ricky Wildman, Chris Tuck and Richard Hague EPSRC C Add to Reading List Source URL: sffsymposium.engr.utexas.edu Language: English* - Date: 2015-09-23 15:09:44 Materials science Chemistry Metamaterials Nanomaterials Optics Technology Microtechnology Plasmonic metamaterial SU-8 photoresist Nanolithography Nanoparticle 3D microfabrication
9	“Microfabrication Techniques: the Route from Hard 2D to Soft 3D Devices” Dr. Seyedhamidreza Alaie Department of Radiology, Weill Cornell Medicine, New York, NY Monday August 15, a.m.) at UNM Center for High Add to Reading List Source URL: chtm.unm.edu Language: English - Date: 2016-08-10 17:37:04 Microtechnology Nanotechnology Electrical engineering Microfabrication Semiconductor device fabrication Soft lithography Microelectromechanical systems Lithography
10	Reviews J. A. Rogers et al. Flexible Electronic Building Blocks Add to Reading List Source URL: rogers.matse.illinois.edu Language: English - Date: 2008-07-13 07:46:47 Nanoelectronics Mesoscopic physics Semiconductor devices Nanomaterials Inorganic compounds Nanowire Gallium arsenide Polydimethylsiloxane Nanoimprint lithography Wafer Microfabrication Quantum dot