富勒烯簇对少层锑烯的非共价功能化及复合材料中的光致电荷分离

Noncovalent Functionalization of Few-Layered Antimonene with Fullerene Clusters and Photoinduced Charge Separation in the Composite.

作者信息

Umeyama Tomokazu, Ohara Tomoya, Tsutsui Yusuke, Nakano Shota, Seki Shu, Imahori Hiroshi

机构信息

Department of Molecular Engineering, Graduate School of Engineering, Kyoto University, Nishikyo-ku, Kyoto, 615-8510, Japan.

Institute for Integrated Cell-Material Sciences (WPI-iCeMS), Kyoto University, Sakyo-ku, Kyoto, 606-8501, Japan.

出版信息

Chemistry. 2020 May 20;26(29):6726-6735. doi: 10.1002/chem.202001740. Epub 2020 Apr 30.

DOI:10.1002/chem.202001740

PMID:32314835

Abstract

Few-layered antimonene (FLSb) nanosheets were noncovalently functionalized with fullerene C clusters by quick addition of a poor solvent (i.e., acetonitrile) into a mixed dispersion of FLSb and C in a good solvent (i.e., toluene). In a flash-photolysis time-resolved microwave conductivity (FP-TRMC) measurement, the FLSb-C composite, (FLSb+C ) , showed a rapid rise in transient conductivity, whereas no conductivity signal was observed in the single components, FLSb and C . This demonstrated the occurrence of photoinduced charge separation between FLSb and C in (FLSb+C ) . Furthermore, a photoelectrochemical device with an electrophoretically deposited (FLSb+C ) film exhibited an enhanced efficiency of photocurrent generation, compared to those of the single-components, FLSb and C , due to the photoinduced charge separation between FLSb and C . This work provides a promising approach for fabrication of antimonene-organic molecule composites and paves the way for their application in optoelectronics.

摘要

通过将不良溶剂（即乙腈）快速加入到富勒烯C簇与少层锑烯（FLSb）在良溶剂（即甲苯）中的混合分散液中，使少层锑烯（FLSb）纳米片与富勒烯C簇进行非共价功能化。在闪光光解时间分辨微波电导率（FP - TRMC）测量中，FLSb - C复合材料（FLSb + C）的瞬态电导率迅速上升，而在单一组分FLSb和C中未观察到电导率信号。这证明了在（FLSb + C）中FLSb和C之间发生了光致电荷分离。此外，与单一组分FLSb和C相比，具有电泳沉积（FLSb + C）薄膜的光电器件由于FLSb和C之间的光致电荷分离而表现出增强的光电流产生效率。这项工作为制备锑烯 - 有机分子复合材料提供了一种有前景的方法，并为其在光电子学中的应用铺平了道路。

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富勒烯簇对少层锑烯的非共价功能化及复合材料中的光致电荷分离

Noncovalent Functionalization of Few-Layered Antimonene with Fullerene Clusters and Photoinduced Charge Separation in the Composite.

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