Graphene is known as the world's thinnest material due to its 2-D structure, in which each sheet is only one carbon atom thick, allowing each atom to engage in a chemical reaction from two sides. Graphene flakes can have ...
Nanomaterials
Feb 3, 2017
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134
(PhysOrg.com) -- A class of decorative, flower-like defects in the nanomaterial graphene could have potentially important effects on the material's already unique electrical and mechanical properties, according to researchers ...
Nanophysics
May 25, 2011
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0
Atomic-level defects in graphene could be a path forward to smaller and faster electronic devices, according to a study led by researchers at the Department of Energy's Oak Ridge National Laboratory.
Nanomaterials
Jan 31, 2012
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0
In an advance that may help researchers scale up quantum devices, an MIT team has developed a method to "recruit" neighboring quantum bits made of nanoscale defects in diamond, so that instead of causing disruptions they ...
Quantum Physics
Mar 6, 2020
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1030
(Phys.org) —Using ultra-fast laser pulses, a team of researchers led by UA assistant professor Vanessa Huxter has made the first detailed observation of how energy travels through diamonds containing nitrogen-vacancy centers ...
General Physics
Oct 4, 2013
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0
Researchers led by Giulia Galli at University of Chicago's Pritzker School of Molecular Engineering report a computational study that predicts the conditions to create specific spin defects in silicon carbide. Their findings, ...
Condensed Matter
Oct 2, 2023
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142
For decades now, the world has become increasingly reliant on computers and sensors to do just about everything, and the technologies themselves are getting smaller, faster, and more efficient. Take your smartphone as an ...
Quantum Physics
Mar 9, 2022
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175
An international team led by EPFL scientists, has unveiled a unique quantum-mechanical interaction between electrons and topological defects in layered materials that has only been observed in engineered atomic thin layers. ...
Quantum Physics
Nov 30, 2021
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307
(Phys.org) —Defects damage the ideal properties of many two-dimensional materials, like carbon-based graphene. Phosphorus just shrugs.
Nanophysics
Sep 8, 2014
2
0
For faster, longer-lasting water filters, some scientists are looking to graphene —thin, strong sheets of carbon—to serve as ultrathin membranes, filtering out contaminants to quickly purify high volumes of water.
Nanomaterials
May 7, 2015
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