Bellefonte / Princeton / Kansas City / Palatine / Vineland / Bartlesville / Santa Clara / Sunnyvale / Perry / Carlsbad / Waltham / St. Louis / /
Company
CDW / Church & Dwight Co. Inc. / Percival Scientific Inc. / Creative Commons / Dionex / Fisher Scientific / Sigma-Aldrich / Agilent / /
Country
United States / / /
Event
FDA Phase / Environmental Issue / Reorganization / /
Facility
Montana State University / University of Texas / /
IndustryTerm
transportation sector / crude oil / potential renewable energy resource / bank / overall energy consumption / described protocol / energy rich / sparged gas / aqueous solutions / gas chromatography-flame ionization detection / chemicals / power plant flue gas / energy-rich storage compounds / periodic gas / food / steel / similar chemical properties / /
Organization
American Chemical Society / Montana State University / University of Texas at Austin / Center for Biofilm Engineering / Department of Chemical and Biological Engineering / Pittsburgh PA / /
Person
Chlorophyte Chlorella / /
Position
author / model / controller / /
Product
CO2 / sodium bicarbonate / fatty / /
ProvinceOrState
Texas / California / /
Technology
Biofuels / Biotechnology / spectroscopy / http / gas chromatography / aeration / previously described protocol / analyzed using gas chromatography / conducted using a previously described protocol / /
Optimized inorganic carbon regime for enhanced growth and lipid accumulation in Chlorella vulgaris