Gregg / Piscataway / Giardino / Lyngby / Washington / DC / Berlin / /
Company
J. Ind. / Wilson / STS Publishing Ltd. / J. Pharm / ASSOCIATED CONTENT / /
Country
Germany / United States / United Kingdom / China / Singapore / Denmark / / /
Event
Product Issues / /
Facility
Occupational Health Sciences Institute / Rutgers University / Technical University of Denmark / University of California / /
IndustryTerm
gas-phase / indoor media / gas-phase organic compounds / gas-phase organic pollutants / chemical parameters / gas-phase counterpart / gas-phase organics / chemical exposure / physical and chemical attributes / gas-phase concentration / particle/gas-phase partition coefficient / gas-phase partitioning / chemical property estimation software / modeled gas/particle distribution / gas constant / gas-phase chemicals / chemical air contaminants / chemical vapours / gas-phase partitioning coefficient / indoor residential pesticide applications / chemicals / gas phase / /
MusicGroup
B. C. / /
Organization
Technical University of Denmark / Rutgers University / U.S. Environmental Protection Agency / International Society of Exposure Science / University of California / Berkeley / Berkeley Education Alliance for Research in Singapore / Occupational Health Sciences Institute / Centers for Disease Control and Prevention / American Chemical Society / Singapore’s National Research Foundation / Department of Civil and Environmental Engineering / United States International Centre for Indoor Environment and Energy / Environmental Protection Agency / /
Person
James / V / Charles J. Weschler / John Kissel / William W Nazaro / B. C. Hazard / / /
Position
multiphase microscopic diffusion model for stratum corneum permeability / author / AUTHOR INFORMATION Corresponding Author *Phone / model / Singer / representative / /
Article pubs.acs.org/est Dermal Uptake of Organic Vapors Commonly Found in Indoor Air Charles J. Weschler*,†,‡ and William W Nazaroff§ †