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Media Contacts
![Default image of ORNL entry sign](/sites/default/files/styles/list_page_thumbnail/public/2023-09/default-thumbnail.jpg?h=553c93cc&itok=N_Kd1DVR)
Three U.S. Department of Energy-funded research centers – the BioEnergy Science Center (Oak Ridge National Laboratory), the Great Lakes Bioenergy Research Center (University of Wisconsin–Madison and Michigan State University), and the Joint BioEnergy Institute (Lawrence Berkeley National Laboratory) – are making progress on a shared mission to develop technologies that will bring advanced biofuels to the marketplace, reporting today the disclosure of their 500th invention.
![A new app developed at ORNL makes fuel economy and other information more readily accessible to car buyers. A new app developed at ORNL makes fuel economy and other information more readily accessible to car buyers.](/sites/default/files/styles/list_page_thumbnail/public/news/images/02%20vehicles%20app%20tip.jpg?itok=Z2r3tM4m)
Fuel economy data, sticker price, emissions information, safety ratings and much more is available at your fingertips with the latest Find-a-Car tool, an app designed specifically for easy searches on mobile devices. FuelEconomy.gov, maintained by the Department of Energy with d...
![This prototype heat pump installed at the Ohio field test site in January 2015 produced savings of more than 40 percent compared to the baseline heat pump. This prototype heat pump installed at the Ohio field test site in January 2015 produced savings of more than 40 percent compared to the baseline heat pump.](/sites/default/files/styles/list_page_thumbnail/public/news/images/04%20hot%20savings%20tip.jpeg?itok=LRkDETQz)
People in cold climates who heat with electricity could realize savings of up to 70 percent with a new heat pump developed by Oak Ridge National Laboratory and Emerson Climate Technologies. The tandem compressor system, developed through a cooperative research and development ag...
![Researchers used experimental data to create a 23.7-million atom biomass model featuring cellulose (purple), lignin (brown), and enzymes (green). (Image credit: Mike Matheson, ORNL) Researchers used experimental data to create a 23.7-million atom biomass model featuring cellulose (purple), lignin (brown), and enzymes (green). (Image credit: Mike Matheson, ORNL)](/sites/default/files/styles/list_page_thumbnail/public/news/images/ORNL.jpg?itok=9WVl7h4b)
![ORNL researchers are developing an idealized collector molecule that has a shape complementary to the surface atomic structure of xenotime, a rare earth yttrium-rich phosphate mineral. ORNL researchers are developing an idealized collector molecule that has a shape complementary to the surface atomic structure of xenotime, a rare earth yttrium-rich phosphate mineral.](/sites/default/files/styles/list_page_thumbnail/public/news/images/critical%20materials%20tip.jpg?itok=-GuDSlzz)
Ensuring a reliable supply of rare earth elements, including four key lanthanides and yttrium, is a major goal of the Critical Materials Institute (https://cmi.ameslab.gov) as these elements are essential to many clean-energy technologies. These include energy-efficient lighting, ...
![The microbe Clostridium thermocellum (stained green), seen growing on a piece of poplar biomass, is among several microorganisms recently evaluated in a BioEnergy Science Center comparative study. Image by Jennifer Morrell-Falvey, Oak Ridge National Labor The microbe Clostridium thermocellum (stained green), seen growing on a piece of poplar biomass, is among several microorganisms recently evaluated in a BioEnergy Science Center comparative study. Image by Jennifer Morrell-Falvey, Oak Ridge National Labor](/sites/default/files/styles/list_page_thumbnail/public/news/images/Ctherm_poplar.jpg?itok=jV2BJGFd)
![This section of a serpentine channel reactor shows the parallel reactor and feeder channels separated by a nanoporous membrane. At left is a single nanopore viewed from the side; at right is a diagram of metabolite exchange across the membrane. This section of a serpentine channel reactor shows the parallel reactor and feeder channels separated by a nanoporous membrane. At left is a single nanopore viewed from the side; at right is a diagram of metabolite exchange across the membrane.](/sites/default/files/styles/list_page_thumbnail/public/news/images/microfluidic.jpeg?itok=Elxmz7La)
![In situ neutron diffraction visualizes the synthesis mechanism, involving multi-phase evolutions, of garnet-type fast lithium-ion solid conductors. The neutron diffraction determines the lithium vacancy distribution in the garnet lattice, and reveals the In situ neutron diffraction visualizes the synthesis mechanism, involving multi-phase evolutions, of garnet-type fast lithium-ion solid conductors. The neutron diffraction determines the lithium vacancy distribution in the garnet lattice, and reveals the](/sites/default/files/styles/list_page_thumbnail/public/news/images/15-G01449_Pic_LLZO_Ke%20An_drawing%5B1%5D.jpeg?itok=uzBLdRSh)