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A semiconducting material with a puckered pentagonal atomic structure, characterized by Oak Ridge National Laboratory, could rival graphene and black phosphorus as a viable option for nanoscale electronics.
A new approach developed by Oak Ridge National Laboratory creates seamless electrical contacts between precisely controlled nanoribbons of graphene, making the material viable as a building block for next-generation electronic devices.
New method to detect spin current in quantum materials unlocks potential for alternative electronics
A new method that precisely measures the mysterious behavior and magnetic properties of electrons flowing across the surface of quantum materials could open a path to next-generation electronics.
Oak Ridge National Laboratory scientists have developed a technique for making ultrafast measurements using atomic force microscopy, which previously could only investigate slow or static material structures and functions.
An Oak Ridge National Laboratory team discovered that adding chloride to promising photovoltaic materials enhances their ionic conduction, signaling a step toward developing electrically and optically tunable technologies.
Researchers sometimes need access to expertise and facilities not available at their universities, companies and institutes.
Rice University researchers have learned to manipulate two-dimensional materials to design in defects that enhance the materials’ properties.
An Oak Ridge National Laboratory–led team discovered that vanadium dioxide in a crystalline thin film makes an outstanding electrode for lithium-ion batteries.
Arthur Baddorf and An-Ping Li, researchers at the Department of Energy's Oak Ridge National Laboratory, have been named fellows of the American Vacuum Society. AVS fellowship is a selective and prestigious honor reserved for members