Washington DC / Pasadena / New York / Oxford / Toulouse / Lake Tahoe / San Diego / /
Company
National Academy Press / Jet Propulsion Laboratory / Elsevier Science B.V. / K.S. Manatt Jet Propulsion Laboratory / Silicon Graphics / Clarendon Press / JPL / V.S. Ryan S.P. / Accelrys Inc. / Cabot / /
Country
France / United States / China / India / / /
Facility
Jet Propulsion Laboratory / University of California Santa Cruz / University Department / University of California at Los Angeles / Pennsylvania State University / California State Polytechnic University / Shanghai Institute of Fine Optics / International Space Station / University of Bombay / Kansas State University / University of Massachusetts / Swarthmore College / California Institute of Technology / Zhejiang University / /
IndustryTerm
thermal-to-electric energy conversion / grid search / polymer solution / system potential energy / carbon black conductivity networks / black conductive networks / chemical engineering / food processing / gas chromatography / sensor device / digital electronics / interaction energy / strongest interaction energy / cavity search / polymer chain / system kinetic energy / energy / chemical sensors / neural network / electronic nose technology / average energy / software analysis program / ethyl cellulose composite systems / physico-chemical properties / potential energy / carbon black solution / molecular simulation tools / electronics / composite solution / analyte interaction energy / random cavity search / /
Organization
California Institute of Technology / University of Massachusetts / University Department of Chemical Technology / California State Polytechnic University / Pomona / NASA office of Biological and Physical Research / University of Bombay / Shanghai Institute of Fine Optics and Mechanics / the Pennsylvania State University / University of California Santa Cruz / Zhejiang University / Kansas State University / Society of Automotive Engineers / National Aeronautics and Space Administration / University of California at Los Angeles / Swarthmore College / /
Person
Immersing / Kenneth Manatt / M.P. Allen / Margaret Amy Ryan / Marcel Dekker / Allison Manfreda / Abhijit Shevade / Margie Homer / K.S. Manatt / V / / /
Position
research scientist / Principal Investigator / Co-Investigator / analog and digital electronics designer and programmer / Corresponding author / model development Carbon black / model / representative / member of Electronic Nose team / member of ENose team / Co-Investigator of the Electronic Nose project / Principal Investigator of the Electronic Nose project / D.J. / /
Product
ENose / /
ProvinceOrState
Maryland / Nevada / New York / Pennsylvania / California / Massachusetts / /
Technology
Molecular modeling / SORPTION / electronic nose technology / thermodynamics / neural network / gas chromatography / simulation / /
Sensors and Actuators B[removed]–91 Molecular modeling of polymer composite–analyte interactions in electronic nose sensors A.V. Shevade, M.A. Ryan*, M.L. Homer, A.M. Manfreda, H. Zhou, K.S. Manatt