Not exact matches
Working in his lab in UD's Department of Chemistry and Biochemistry, Rosenthal and doctoral student John DiMeglio have
developed an inexpensive catalyst that uses the electricity generated from solar energy to convert carbon dioxide, a major greenhouse gas, into
synthetic fuels for powering cars, homes and businesses.
Prior to joining at the DOE JGI, Dr. Yoshikuni was a co-founder and Chief Science Officer at a clean technology start - up, Bio Architecture Lab, Inc. where his significant achievement was using
synthetic biology to
develop the first microbial platform technologies enabling to unlock the potential of macroalgae as highly environmentally sustainable and cost - effective biomass for the production of renewable
fuels and chemicals.
A team of researchers led by University of Amsterdam (UvA) chemists has
developed new Fischer - Tropsch catalysts — consisting of ultra-thin cobalt shells surrounding inexpensive iron oxide cores — that can be used to produce
synthetic fuels from natural gas and biomass.
Sasol and General Electric (GE: NYSE)'s GE Power & Water have together
developed new technology that will clean waste water from Fischer - Tropsch plants used to produce
synthetic fuels and chemicals, while also providing biogas as a by - product for power generation.
Venter's closely held company, La Jolla - based
Synthetic Genomics Inc., has a $ 600 million deal with Exxon - Mobil Corp. to
develop fuel from algae.
«In his doctoral thesis, he is
developing a realistic model of a catalyst surface, which greatly facilitates the conversion of carbon monoxide and hydrogen to
synthetic fuel.
Using genome editing techniques, the collaborative team is
developing a microalgae — nannochloropsis oceania — that uses photosynthesis to produce
synthetic fuels.
Before anyone could possibly
develop, test, certify, and build next - generation nuclear it will be rendered uncompetitive by cheap
synthetic replacements for fossil
fuels.
Sasol and General Electric (GE: NYSE)'s GE Power & Water have together
developed new technology that will clean waste water from Fischer - Tropsch plants used to produce
synthetic fuels and chemicals, while also providing biogas as a by - product for power generation.
A team of researchers led by University of Amsterdam (UvA) chemists has
developed new Fischer - Tropsch catalysts — consisting of ultra-thin cobalt shells surrounding inexpensive iron oxide cores — that can be used to produce
synthetic fuels from natural gas and biomass.
RPC
developed simulation models to determine the economic, demographic and fiscal impact of proposals to convert a power plant to burn
synthetic fuel in place of burning residual
fuel oil in Manatee County, Florida.