1.1 Modeling, Simulation, and Experimentation of a Promising New Packaging Technology: Parallel Fluidic Self-Assembly - Supramolecular assembly - Document - PDFSEARCH.IO

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	1.1 Modeling, Simulation, and Experimentation of a Promising New Packaging Technology: Parallel Fluidic Self-Assembly Add to Reading List Document Date: 2003-10-16 00:51:25 Open Document File Size: 525,86 KB Share Result on Facebook City London / / Company Clariant / Non-Ideal Systems / / Facility University of Washington / Albert Ludwig University / / IndustryTerm material systems / electronic networks / surface energy / surface-free energy / interfacial energy / dipoledipole interaction potential energy / water-lubricant interfacial energy / hybrid systems / High-resolution wet printing / simulation tool / surface-free energy cdA / liquid-metal micromotor / chemical analysis / telecommunications / energy / / Organization Assembly of Microdevices Keywords / Assembly of Microdevices J. Lienemann / University of Washington / Seattle / African Union / Albert Ludwig University / Assembly of Microdevices / / / Position surface pressure pL pM / Prime Minister / designer / / Technology Simulation / photolithography / polymerization / / SocialTag Fluid mechanics Supramolecular chemistry Self-organization Adhesion Wetting Surface tension Self-assembled monolayer Adsorption Hydrophobe Chemistry

1.1 Modeling, Simulation, and Experimentation of a Promising New Packaging Technology: Parallel Fluidic Self-AssemblyAdd to Reading List