Debjani Singh: Channeling a river of data for clean energy, sustainability
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Media Contacts
Neutron scattering research at the Department of Energy’s Oak Ridge National Laboratory has revealed clear structural differences in the normal and pathological forms of a protein involved in Huntington’s disease.
The Spallation Neutron Source at the Department of Energy’s Oak Ridge National Laboratory broke records for sustained beam power level as well as for integrated energy and target lifetime in the month of June.
The American Conference on Neutron Scattering returned to Knoxville this week, 12 years after its inaugural meeting there in 2002.
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...
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
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.
Gas and oil deposits in shale have no place to hide from an Oak Ridge National Laboratory technique that provides an inside look at pores and reveals structural information potentially vital to the nation’s energy needs.
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.