Narrow-gap Semiconducting Superhard Amorphous Carbon with Superior Toughness

New carbon forms exhibiting extraordinary physico-chemical properties can be generated from nanostructured precursors under extreme pressure. Nevertheless, synthesis of such fascinating materials is often not well understood that results, as is the case of C60 precursor, in irreproducibility of the...

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Published in	arXiv.org
Main Authors	Zhang, Shuangshuang, Wu, Yingju, Luo, Kun, Liu, Bing, Yu, Shu, Zhang, Yang, Sun, Lei, Gao, Yufei, Ma, Mengdong, Li, Zihe, Li, Baozhong, Pan, Ying, Zhao, Zhisheng, Hu, Wentao, Benavides, Vicente, Chernogorova, Olga P, Soldatov, Alexander V, He, Julong, Yu, Dongli, Xu, Bo, Tian, Yongjun
Format	Paper Journal Article
Language	English
Published	Ithaca Cornell University Library, arXiv.org 15.06.2021
Subjects	Amorphous materials Carbon Chemical properties Diamonds Fullerenes Graphene Optoelectronics Physics - Materials Science Precursors Single crystals Synthesis Toughness
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Abstract	New carbon forms exhibiting extraordinary physico-chemical properties can be generated from nanostructured precursors under extreme pressure. Nevertheless, synthesis of such fascinating materials is often not well understood that results, as is the case of C60 precursor, in irreproducibility of the results and impeding further progress in the materials design. Here the semiconducting amorphous carbon having bandgaps of 0.1-0.3 eV and the advantages of isotropic superhardness and superior toughness over single-crystal diamond and inorganic glasses are produced from transformation of fullerene at high pressure and moderate temperatures. A systematic investigation of the structure and bonding evolution was carried out by using rich arsenal of complimentary characterization methods, which helps to build a model of the transformation that can be used in further high p,T synthesis of novel nanocarbon systems for advanced applications. The produced amorphous carbon materials have the potential of demanding optoelectronic applications that diamond and graphene cannot achieve
AbstractList	Cell Reports Physical Science, 2021 New carbon forms exhibiting extraordinary physico-chemical properties can be generated from nanostructured precursors under extreme pressure. Nevertheless, synthesis of such fascinating materials is often not well understood that results, as is the case of C60 precursor, in irreproducibility of the results and impeding further progress in the materials design. Here the semiconducting amorphous carbon having bandgaps of 0.1-0.3 eV and the advantages of isotropic superhardness and superior toughness over single-crystal diamond and inorganic glasses are produced from transformation of fullerene at high pressure and moderate temperatures. A systematic investigation of the structure and bonding evolution was carried out by using rich arsenal of complimentary characterization methods, which helps to build a model of the transformation that can be used in further high p,T synthesis of novel nanocarbon systems for advanced applications. The produced amorphous carbon materials have the potential of demanding optoelectronic applications that diamond and graphene cannot achieve New carbon forms exhibiting extraordinary physico-chemical properties can be generated from nanostructured precursors under extreme pressure. Nevertheless, synthesis of such fascinating materials is often not well understood that results, as is the case of C60 precursor, in irreproducibility of the results and impeding further progress in the materials design. Here the semiconducting amorphous carbon having bandgaps of 0.1-0.3 eV and the advantages of isotropic superhardness and superior toughness over single-crystal diamond and inorganic glasses are produced from transformation of fullerene at high pressure and moderate temperatures. A systematic investigation of the structure and bonding evolution was carried out by using rich arsenal of complimentary characterization methods, which helps to build a model of the transformation that can be used in further high p,T synthesis of novel nanocarbon systems for advanced applications. The produced amorphous carbon materials have the potential of demanding optoelectronic applications that diamond and graphene cannot achieve
Author	Zhao, Zhisheng Hu, Wentao Chernogorova, Olga P Li, Baozhong Soldatov, Alexander V Liu, Bing Zhang, Yang Xu, Bo Luo, Kun Yu, Dongli Tian, Yongjun He, Julong Wu, Yingju Li, Zihe Zhang, Shuangshuang Benavides, Vicente Sun, Lei Gao, Yufei Yu, Shu Ma, Mengdong Pan, Ying
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BackLink	https://doi.org/10.48550/arXiv.2106.08163$$DView paper in arXiv https://doi.org/10.1016/j.xcrp.2021.100575$$DView published paper (Access to full text may be restricted)
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Snippet	New carbon forms exhibiting extraordinary physico-chemical properties can be generated from nanostructured precursors under extreme pressure. Nevertheless,... Cell Reports Physical Science, 2021 New carbon forms exhibiting extraordinary physico-chemical properties can be generated from nanostructured precursors under...
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SubjectTerms	Amorphous materials Carbon Chemical properties Diamonds Fullerenes Graphene Optoelectronics Physics - Materials Science Precursors Single crystals Synthesis Toughness
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Title	Narrow-gap Semiconducting Superhard Amorphous Carbon with Superior Toughness
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