5 October 202129 September 2021 Großer Fortschritt bei der Entwicklung von mikrobiellen Brennstoffzellen Forscher infundieren Bakterien mit Silber, um die Energieeffizienz von Brennstoffzellen zu verbessern
Researchers Infuse Bacteria with Silver to Improve Power Efficiency in Fuel Cells Living energy-recovery systems utilizing bacteria found in wastewater offer a one-two punch for environmental sustainability efforts
12 May 20219 September 2021 Bridging carbon product’s valley of death Capturing CO2 from energy production emissions to create viable and economical carbon products is a reality that could breathe new life into the coal communities
9 October 20209 September 2021 Effective pathway to convert CO2 into ethylene Scientists developed nanoscale copper wires with specially shaped surfaces to catalyze a chemical reaction that reduces greenhouse gas emissions while generating ethylene
17 January 20209 September 2021 Using CO2 as an industrial feedstock could change the world. Here’s how We need to actively remove excess CO2 from the atmosphere. The question then becomes: what do we do with the carbon that is removed?
31 July 201828 July 2018 Researchers Discover New Enzyme Paradigm for Critical Reaction in Converting Lignin to Useful Products New finding will help convert lignin to useful products
9 November 20168 November 2016 NREL Researchers Discover How a Bacterium, Clostridium thermocellum, Utilizes both CO2 and Cellulose to Make Biofuels Clostridium thermocellum is among the most efficient bacteria in directly converting cellulosic materials into hydrogen and hydrocarbons biofuels
28 August 201526 August 2015 BESC creates microbe that bolsters isobutanol production New significant finding to encourage microbial engineering challenges
25 August 201524 August 2015 UCLA scores 6.5-million-gallon water savings New turf field expected to increase savings to more than 15 million gallons this year
10 June 20159 June 2015 Hightech-Fasern für die Organ- und Gewebe-Regeneration Fraunhofer IGB, Universitätsklinikum Tübingen und University of California entwickeln neues Elektrospinnverfahren, um PLA und synthetische Polymere mittels elektrischer Ladung zu Fasern zu verspinnen
High-tech fibres for organ and tissue regeneration Fraunhofer IGB, together with Tübingen University Hospital and the University of California in Los Angeles (UCLA) developed a particular variant of electrospinning in which synthetic and PLA polymers are spun into fibres using an electrical charge
28 May 2013 UMass Amherst finds new way to make p-xylene from biomass Paul Dauenhauer, UMass Amherst Chemical Engineer, Receives DuPont Young Professor Award
17 February 2013 MIT: Engineering cells for more efficient biofuel production Isobutanol production in yeast boost amount by about 260 percent
30 March 2012 Fossil Free: Microbe Helps Convert Solar Power to Liquid Fuel By pairing biology and photovoltaics, a new "electrofuel" system could build alternative fuels
7 March 2011 BESC scores a first with isobutanol directly from cellulose Clostridium cellulolyticum also has been genetically engineered to improve ethanol production