Results 151 to 160 of about 2,766 (188)
A Gravitational-like Relationship of Dispersion Interactions is Exhibited by 40 Pairs of Molecules and Noble Gas Atoms. [PDF]
J Am Chem SocDanovich D +3 more
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Magnetic State Control of Non-van der Waals 2D Materials by Hydrogenation. [PDF]
Nano LettBarnowsky T +4 more
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Machine Learning-Accelerated Discovery of Proton-Conducting 2D Materials for Proton Exchange Membranes. [PDF]
ACS NanoLi Y +5 more
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A quantum mechanical approach to the oxidation mechanism of graphene oxide (GO). [PDF]
HeliyonPapayannis DK +2 more
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Twenty Years of Graphene: From Pristine to Chemically Engineered Nano-Sized Flakes. [PDF]
J Am Chem SocIzquierdo-García P +2 more
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Graphane and hydrogenated graphene
Chemical Society Reviews, 2013Graphane, the fully hydrogenated analogue of graphene, and its partially hydrogenated counterparts are attracting increasing attention. We review here its structure and predicted material properties, as well as the current methods of preparation. Graphane and hydrogenated graphenes are far more complex materials than graphene, expected to have a ...
Martin Pumera, Colin Hong An Wong
exaly +3 more sources
ACS Nano, 2012
In this work, one-dimensional graphane nanotubes (GN, stoichiometry CH), built from 2D single-sheet graphanes, are explored theoretically. Zigzag type GN(10,0) and armchair type GN(10,10) structures with varying surface termination were investigated in detail.
Xiao-Dong Wen +2 more
exaly +3 more sources
In this work, one-dimensional graphane nanotubes (GN, stoichiometry CH), built from 2D single-sheet graphanes, are explored theoretically. Zigzag type GN(10,0) and armchair type GN(10,10) structures with varying surface termination were investigated in detail.
Xiao-Dong Wen +2 more
exaly +3 more sources
Angewandte Chemie - International Edition, 2016
AbstractGraphane, the hydrogenated counterpart of graphene, was shown to exhibit properties such as tunable band gaps through varied degrees of hydrogenation, fluorescence, or ferromagnetism. Graphane nanostripe properties have also been theoretically predicted. Herein, we show that graphane nanostripes can be prepared by opening carbon nanotubes using
Lu Wang, Zdenek Sofer, Daniel Bouša
exaly +3 more sources
AbstractGraphane, the hydrogenated counterpart of graphene, was shown to exhibit properties such as tunable band gaps through varied degrees of hydrogenation, fluorescence, or ferromagnetism. Graphane nanostripe properties have also been theoretically predicted. Herein, we show that graphane nanostripes can be prepared by opening carbon nanotubes using
Lu Wang, Zdenek Sofer, Daniel Bouša
exaly +3 more sources