CdSe 量子点与氧化石墨烯的复合化。激发态相互作用和光能转换。

Fortification of CdSe quantum dots with graphene oxide. Excited state interactions and light energy conversion.

机构信息

Radiation Laboratory, Department of Chemistry & Biochemistry, University of Notre Dame, Notre Dame, Indiana 46556, USA.

出版信息

J Am Chem Soc. 2012 Apr 25;134(16):7109-16. doi: 10.1021/ja3012929. Epub 2012 Apr 10.

Abstract

Graphene based 2-D carbon nanostructures provide new opportunities to fortify semiconductor based light harvesting assemblies. Electron and energy transfer rates from photoexcited CdSe colloidal quantum dots (QDs) to graphene oxide (GO) and reduced graphene oxide (RGO) were isolated by analysis of excited state deactivation lifetimes as a function of degree of oxidation and charging in (R)GO. Apparent rate constants for energy and electron transfer determined for CdSe-GO composites were 5.5 × 10(8) and 6.7 × 10(8) s(-1), respectively. Additionally, incorporation of GO in colloidal CdSe QD films deposited on conducting glass electrodes was found to enhance the charge separation and electron conduction through the QD film, thus allowing three-dimensional sensitization. Photoanodes assembled from CdSe-graphene composites in quantum dot sensitized solar cells display improved photocurrent response (~150%) over those prepared without GO.

摘要

基于石墨烯的二维碳纳米结构为增强基于半导体的光捕获组件提供了新的机会。通过分析激发态退激发寿命作为（R）GO 中氧化和充电程度的函数，从光激发的 CdSe 胶体量子点（QD）到氧化石墨烯（GO）和还原氧化石墨烯（RGO）的电子和能量转移速率被隔离。对于 CdSe-GO 复合材料，确定的能量和电子转移的表观速率常数分别为 5.5×10(8) 和 6.7×10(8) s(-1)。此外，在导电玻璃电极上沉积的胶体 CdSe QD 薄膜中掺入 GO 被发现可以增强通过 QD 薄膜的电荷分离和电子传导，从而允许三维敏化。在量子点敏化太阳能电池中，由 CdSe-石墨烯复合材料组装的光阳极在没有 GO 的情况下制备的光阳极的光电流响应提高了约 150%。

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CdSe 量子点与氧化石墨烯的复合化。激发态相互作用和光能转换。

Fortification of CdSe quantum dots with graphene oxide. Excited state interactions and light energy conversion.

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