Communication Electronics / ASI Instrument Inc. / Union Carbide Corp. / J. Wiley & Sons / Philips / CRC Press / Corning / Microfluidic Research & Engineering Laboratory / /
Country
United States / / /
Facility
Princeton University / /
IndustryTerm
microfluidic device / electric flux solution / lines representing solutions / chemical composition / fluidic chips / approximate solution / chemical and biomolecular diagnostics / chemical vapor deposition / chemical treatment / metal electrodes / microfluidic devices / open microfluidic device / chemical patterning / The metal electrodes / analytic solution / open microfluidic devices / numerical solutions / metal electrode pair / prototype thermofluidic device / Open format devices / /
Organization
National Science Foundation / United States Army / Princeton University / National Aeronautics and Space Administration / Royal Society of Chemistry / Department of Electrical Engineering / /
Person
J. R. Whinnery / Sigurd Wagnera / S. Ramo / T. Van Duzer / Jian Z. Chen / /
MINIATURISATION FOR CHEMISTRY, BIOLOGY & BIOENGINEERING Capacitive sensing of droplets for microfluidic devices based on thermocapillary actuation Jian Z. Chen,a Anton A. Darhuber,b Sandra M. Troian*b and Sigurd Wagnera