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Once thought unlikely, this new finding in coordination chemistry could lead to promising advances in catalysis and materials science. For more than 100 years, the widely accepted 18-electron rule has ...
The team developed a technique to insert dense alkali metals between graphene layers. Utilizing a high-performance low-voltage (60 kV) electron microscope, they have successfully observed the ...
AZoNano gives readers a deeper understanding of the state-of-the-art technology and development surrounding in situ graphene liquid cells-TEM.
In situ Transmission Electron Microscopy (TEM) is a powerful tool for manipulating structures with an electron beam. Recent advancements in in-situ transmission electron microscopy (TEM) allow ...
Pushing Moore's Law to its bitter limits, a new graphene transistor gate measures a mere 0.34 nanometers—a mark that'll be hard to beat.
Art & Tech Can Graphene, a One-Atom Thick ‘Wonder Material,’ Keep Precious Artworks From Fading? Scientists Say It Shows Promise A transparent layer can retard UV rays and moisture, but some ...
Catalysts minimized in single-atom level (SACs) anchored on two-dimensional substances are highly active for various electrocatalytic reactions, but so far represent the limited performance for OER.
Interestingly, when graphene is isolated from graphite it takes on some miraculous properties. It is a mere one-atom thick, the first two-dimensional material ever discovered.
Graphene Flagship researchers reach the ultimate level of light confinement -- the space of one atom. This will pave the way to ultra-small optical switches, detectors and sensors.
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