Two-Dimensional Metals Open Pathways To New Science
A new, atomically-thin materials platform will open a wide range of new applications in biomolecular sensing, quantum phenomena, catalysis and nonlinear optics.
A new, atomically-thin materials platform will open a wide range of new applications in biomolecular sensing, quantum phenomena, catalysis and nonlinear optics.
A new way of creating carbon fibers — which are typically expensive to make — could one day lead to using these lightweight, high-strength materials to improve safety and reduce the cost of producing cars.
Layered van der Waals materials are of high interest for electronic and photonic applications, according to researchers at Penn State and SLAC National Accelerator Laboratory.
The goal of room temperature superconductivity took a small step forward with a recent discovery by a team of Penn State physicists and materials scientists.
A supersensitive dopamine detector can help in the early diagnosis of several disorders that result in too much or too little dopamine, according to a group led by Penn State.
The Center for Nanoscale Science, a National Science Foundation Materials Science and Engineering Center (MRSEC), has again successfully renewed its NSF support in the highly competitive MRSEC program.
New Possibilities For Future Developments In Electronic And Optical Devices Have Been Unlocked By Recent Advancements In Two-Dimensional (2D) Materials, According To Penn State Researchers.
A team of engineers is attempting to pioneer a type of computing that mimics the efficiency of the brain’s neural networks while exploiting the brain’s analog nature.
Boise State joins Penn State and Rice for Phase II expansion of ATOMIC center
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