Case closed: Neutrons settle 40-year debate on enzyme for drug design
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Media Contacts
A major multinational report on bioenergy and sustainability released Tuesday concludes the sustainable production of bioenergy can be an important tool for addressing climate change. Two researchers at the Department of Energy's Oak Ridge National Lab...
Scientists focused on producing biofuels more efficiently have a new powerful dataset to help them study the DNA of microbes that fuel bioconversion and other processes.
Dr. Michael Simpson, Oak Ridge National Laboratory Corporate Fellow and Group Leader of the Nanofabrication Research Laboratory Group in the Center for Nanophase Materials Sciences (CNMS) at ORNL, has been appointed the next director of the UT-ORNL Joint Institute for Biological Sciences (JIBS). This appointment is in addition to his role at CNMS.
Vertimass LLC, a California-based start-up company, has licensed an Oak Ridge National Laboratory technology that directly converts ethanol into a hydrocarbon blend-stock for use in transportation fuels.
Arthur Ragauskas, an authority in bioenergy, has been named a University of Tennessee–Oak Ridge National Laboratory Governor’s Chair.
The associate laboratory director for Energy and Environmental Sciences (EES) at the Department of Energy’s Oak Ridge National Laboratory and two University of Tennessee-ORNL Governor’s Chair researchers are among the newly elected fellows of the American Associa...
The ability to make plants grow stronger and more quickly is a key goal in the effort to develop better biofuels and better understand plant efficiency.
ORNL study uses neutron scattering, supercomputing to demystify forces at play in biofuel production
Researchers studying more effective ways to convert woody plant matter into biofuels at the Department of Energy's Oak Ridge National Laboratory have identified fundamental forces that change plant structures during pretreatment processes used in the
Microbes that live in rice paddies, northern peat bogs and other previously unexpected environments are among the bacteria that can generate highly toxic methylmercury, researchers at Oak Ridge National Laboratory and the Smithsonian Environmental Research Center have learned.
More forms of mercury can be converted to deadly methylmercury than previously thought, according to a study published Sunday in Nature Geoscience.