Theory, preparation, properties and catalysis application in 2D Graphynes-Based Materials

Carbon has three hybridization forms of sp-, sp2- and sp3-, and the combination of different forms can obtain different kinds of carbon allotropes, such as diamond, carbon nanotubes, fullerene, graphynes (GYs) and graphdiyne (GDY). Among them, the GDY molecule is a single-layer two-dimensional (2D)...

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Veröffentlicht in:	arXiv.org 2020-10
Hauptverfasser:	Zhang, Ning, Wu, Jiayu, Yu, Taoyuan, Lv, Jiaqi, Liu, He, Xu, Xiping
Format:	Artikel
Sprache:	eng
Schlagworte:	Acetylene Allotropy Benzene Carbon Carbon nanotubes Catalysis Clean energy Composite materials Conjugation Diamonds Fullerenes Planar structures Porosity Properties (attributes)
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description	Carbon has three hybridization forms of sp-, sp2- and sp3-, and the combination of different forms can obtain different kinds of carbon allotropes, such as diamond, carbon nanotubes, fullerene, graphynes (GYs) and graphdiyne (GDY). Among them, the GDY molecule is a single-layer two-dimensional (2D) planar structure material with highly -conjugation formed by sp- and sp2- hybridization. GDY has a carbon atom ring composed of benzene ring and acetylene, which makes GDY have a uniformly distributed pore structure. In addition, GDY planar material have some slight wrinkles, which makes GDY have better self-stability than other 2D planar materials. The excellent properties of GDY make it attract the attention of researcher. Therefore, GDY is widely used in chemical catalysis, electronics, communications, clean energy and composite materials. This paper summarizes the recent progress of GDY research, including structure, preparation, properties and application of GDY in the field of catalysts.
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subjects	Acetylene Allotropy Benzene Carbon Carbon nanotubes Catalysis Clean energy Composite materials Conjugation Diamonds Fullerenes Planar structures Porosity Properties (attributes)
title	Theory, preparation, properties and catalysis application in 2D Graphynes-Based Materials
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