Using today’s advanced microscopes, scientists are able to capture exponentially more information about the materials they study compared to a decade ago—in greater detail and in less time.
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For decades nuclear physicists have tried to learn more about which elements, or their various isotopes, are “magic.” This is not to say that they display supernatural powers.
Since the discovery of high-temperature superconductors — materials that can transport electricity with perfect efficiency at or near liquid nitrogen temperatures (minus-196 degrees Celsius) — scientists have been working to develop a theory that explains
When physicists Georg Bednorz and K. Alex Muller discovered the first high-temperature superconductors in 1986, it didn’t take much imagination to envision the potential technological benefits of harnessing such materials.
Fernanda Foertter, a user support specialist at the Department of Energy’s Oak Ridge National Laboratory, considers herself a tinkerer.
Foertter’s tinkering started when she was a child, but her innate inquisitiveness still influences her work at the Oak
In the United States, the use of natural gas for electricity generation continues to grow. The driving forces behind this development?
Four Oak Ridge National Laboratory researchers specializing in environmental, biological and computational science are among 49 recipients of Department of Energy's Office of Science Early Career Research Program awards.
Radioactive materials have long been a part of American history—from the Manhattan Project to the development of nuclear power.
Minimizing the impact on freight movement when events like Hurricane Sandy happen is the focus of an Oak Ridge National Laboratory ongoing study led by Marc Fialkoff, a researcher in the Geographic Information Science and Technology Group.
Lipid molecules have split personalities—one part loves water, whereas the other avoids it at all costs.