Renewable Energy / Bioenergy Corporation / Oak Ridge National Laboratory / KO11 / /
Country
United States / / /
Facility
University of Florida / /
IndustryTerm
dilute products / high-ethanol media concentrations / chemical conversions / pro duce side products / minimal by-product / minimal media / emerg ing technologies / main fermentation product / cellular biocatalytic systems / commodity product / deleterious products / ethanol producer / abundant product / imaging / certain enabling microbiological tools / energy / soluble starch solution / energy production / by-products / thermochemical processing / certain microbial-specific enabling tools / omic tools / technology pathways / energy rich fuels / established recombi nant tools / favorable products / conversion solution / biological tools / able modeling tools / energy metabolic pathways / microbial systems / biological technology / commodity products / separate processing steps / pharmaceutical compounds / biological research tools / rent technology / preserved and robust tools / inhibitory side products / moving biological technology / /
Organization
office of Sc / U.S. Department of Energy Fig / U.S. Department of Energy / American Society for Micro / office of Biological and Environmental Research / Energy Efficiency and Renewable Energy office of the Biomass Program / office of Science / National Renewable Energy Laboratory’s Process Development Unit / U.S. Department of Energy Metabol / office of Science office of Biological and Environmental Research / DOE’s office of the Biomass Program / Current File John Ferrell office of Energy Efficiency / office of Energy Effic / University of Florida / Genomics /
Breaking the Biological Barriers to Cellulosic Ethanol (Sugar Fermentation to Ethanol ) June 2006