You probably learned in high school chemistry class that core electrons don't participate in chemical bonding.
Research suggests some metals’ semicore electrons may be more active on Earth’s surface than previously thought.
Researchers from the Freunberger group at the Institute of Science and Technology Austria (ISTA) have unveiled pivotal ...
Scientists at OIST have, for the first time, directly tracked the elusive “dark excitons” inside atomically thin materials.
BUFFALO, N.Y. — You probably learned in high school chemistry class that core electrons don’t participate in chemical bonding. They’re thought to be too deep inside an atom and close to the nucleus to ...
Scientists directly observed dark excitons in atomically thin materials, revealing how they evolve and paving the way for ...
Atomic imaging shows graphene nanoribbons retain atomic structure and adjustable electronic alignment after transfer to ...
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Spinel-type sulfide semiconductors achieve room-temperature light emission across violet to orange spectrum
A spinel-type sulfide semiconductor that can emit light from violet to orange at room temperature has been developed by ...
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