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人工碳石墨炔:非线性光子学和光电子学应用中的现状和挑战。

Artificial Carbon Graphdiyne: Status and Challenges in Nonlinear Photonic and Optoelectronic Applications.

机构信息

College of Physics and Optoelectronic Engineering, Shenzhen University, Shenzhen 518060, P. R. China.

College of Materials Science and Engineering, Shenzhen University, Shenzhen 518060, P. R. China.

出版信息

ACS Appl Mater Interfaces. 2020 Nov 4;12(44):49281-49296. doi: 10.1021/acsami.0c13030. Epub 2020 Oct 25.

Abstract

The creative integration of sp-hybridized carbon atoms into artificial carbon graphdiyne has led to graphdiyne with superior properties in terms of uniformly distributed pores, ambipolar carrier transport, natural bandgap, and broadband absorption. Consequently, graphdiyne, regarded as a promising carbon material, has garnered particular attention in light-matter interactions. Light-matter interactions play an important role in optical information technology and meet the increasing demand for various energy sources. Herein, the status and challenges in nonlinear photonic and optoelectronic applications of graphdiyne, which are still in the infancy stage, are summarized. Furthermore, the bottleneck and perspective of graphdiyne in these aspects are discussed. It is therefore anticipated that this review could promote the development of graphdiyne in photonic and optoelectronic fields.

摘要

sp 杂化碳原子与人工碳图二炔的创造性融合,导致了具有均匀分布的孔、双极性载流子输运、本征带隙和宽频吸收等优异性能的图二炔。因此,作为一种很有前途的碳材料,图二炔在光物质相互作用中受到了特别关注。光物质相互作用在光信息技术中起着重要作用,满足了对各种能源日益增长的需求。在此,总结了图二炔在非线性光子学和光电应用方面的现状和挑战,目前这些领域仍处于起步阶段。此外,还讨论了图二炔在这些方面的瓶颈和展望。因此,预计这篇综述能够促进图二炔在光子学和光电领域的发展。

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