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City Monterey / Montreal / / Company Nikon / Renault / Cellular Biomechanics Laboratory / Intel / MTI / I/O Stage / / Country United States / Canada / / / Facility Cambridge University / Carnegie Mellon University / Robotics Institute Carnegie Mellon University / Mechanical Engineering Carnegie Mellon University / Cellular Biomechanics Laboratory / / IndustryTerm Force-controlled microcontact printing / printing procedure / interfacial adhesion energy / conventional contact printing applications / friction force microscopy imaging mode / glass using microcontact printing / industrial high throughput applications / printing / rubber stamping / force-controlled printing / adhesion energy / possible solution / liquid solution / printing process / microcontact printing steps / force-controlled printing methods / microcontact printing method / excess inking solution / fluorescent imaging / force-controlled printing method / low surface energy / contact printing / microscope image processing / microcontact printing / printing step / force-controlled contact printing / ink solution / nanoimprint technology / low-volume and low-speed manufacturing / frictional force imaging / / OperatingSystem Linux / / Organization National Park Service / Mechanical Engineering Carnegie Mellon University Pittsburgh / Cambridge University / London / Carnegie Mellon University / Robotics Institute Carnegie Mellon University Pittsburgh / E. Force / / Person Petri / Philip Leduc / / / Position Wavefront expansion motion planner / Controller / / Product Samsung L200 Digital Camera / Canon DC330 Camcorder / / ProvinceOrState Pennsylvania / / PublishedMedium Advanced Materials / / Technology Linux / lithography / image processing / GUI / / SocialTag 
Force-Controlled Microcontact Printing using Microassembled Particle Templates Afshin Tafazzoli Chytra Pawashe