Diodes / Computer Sciences / Agilent Technologies / IEEE/LEOS Intl / Forming Electrical Networks / K. L. Michael L. C. / Microsoft / Intel Corporation / John Wiley & Sons / Tanner Research Inc. / /
Country
Japan / United States / / /
Facility
Applied Microtechnology University of Washington / Computer Sciences University of California / University of Washington / square Si / Berkeley Microfabrication Facility / University of California / American Institute of Chemical Engineers / /
IndustryTerm
low energy gradient corresponding / high surface energy / energy minimum / interfacial energy / substrate binding site / free energy / interfacial free energy minimization / surface energy / contact printing / energy minima / part binding site / adhesive-coated substrate binding site / clear global energy minimum / computational tools / interfacial energy gain / minimum energy configurations / interfacial free energy / energy / /
Organization
University of California / American Institute / National Science Foundation / University of California / Berkeley / Berkeley Sensor & Actuator Center / University of Washington / Seattle / /
Person
Uthara Srinivasan / Roger T. Howe / /
ProgrammingLanguage
MATLAB / /
ProvinceOrState
M. B. / California / Washington / /
PublishedMedium
Analytical Chemistry / /
Technology
laser / Microelectromechanical Systems / MEMS / X-ray / Crystallization / lithography / simulation / html / /
MODELING OF CAPILLARY FORCES AND BINDING SITES FOR FLUIDIC SELF-ASSEMBLY 1 2,3