Templates Afshin Tafazzoli Metin Sitti Mechanical Engineering Department Carnegie Mellon University / Cambridge University / Robotics Institute Carnegie Mellon University / /
IndustryTerm
conventional contact print applications / Force-controlled microcontact printing / interfacial adhesion energy / glass using microcontact printing / industrial high throughput applications / printing / automatic manipulation systems / low speed manufacturing capability / printing phase / force-controlled printing / force-controlled printing process / printing imperfections / error printing / adhesion energy / possible solution / repeatable and robust microcontact printing / printing stage / printing cycle / microcontact printing steps / chemical bond / manipulation systems / real time / microcontact printing method / fluorescent imaging / micro/nanocontact printing / image processing tool / low surface energy / printing templates / contact printing / assembled micro-particles using controlledforce microcontact printing / microcontact printing / printing step / substrate using frictional force imaging / soft microcontact printing / force-controlled contact printing / ink solution / nanoimprint technology / /
Organization
D. Force / NanoRobotics Lab / Mechanical Engineering Department / Templates Afshin Tafazzoli Metin Sitti Mechanical Engineering Department Carnegie Mellon University Pittsburgh / Cambridge University / London / Cellular Biomechanics Lab / Robotics Institute Carnegie Mellon University Pittsburgh / /
Soft Microcontact Printing with Force Control using Microrobotic Assembly based Templates Afshin Tafazzoli Metin Sitti