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量子点嵌入氮掺杂功能化多壁碳纳米管提高了基于 Ru(ii)的染料敏化太阳能电池的短路电流。

Quantum dot embedded N-doped functionalized multiwall carbon nanotubes boost the short-circuit current of Ru(ii) based dye-sensitized solar cells.

机构信息

School of Physics and Materials Science, Anhui University, Hefei 230601, P.R. China.

School of Physics and Materials Science, Anhui University, Hefei 230601, P.R. China and Anhui Key Laboratory of Information Materials and Devices, Anhui University, Hefei 230601, P.R. China.

出版信息

Nanoscale. 2020 Jan 14;12(2):1046-1060. doi: 10.1039/c9nr09227g. Epub 2019 Dec 17.

DOI:10.1039/c9nr09227g
PMID:31845950
Abstract

Here, we report zinc sulfide quantum dots, ZnS(QDs), moored on N-doped functionalized multiwall carbon nanotubes (MWCNTs) wrapped with reduced graphene oxide (rGO). The MWCNTs have a tangled network, a particular surface area, and a distinctive hollow structure that may be suitable for use as a counter electrode (CE) material. A ZnS@N.f-MWCNTs@rGO composite as the CE on a fluorine-doped tin oxide substrate in a dye-sensitized solar cell (DSSC) was fabricated using a doctor blade technique. The electrochemical performance showed that at the electrolyte/CE interface, the ZnS(QDs) and N-doped functionalized MWCNTs wrapped with rGO (ZnS@N.f-MWCNTs@rGO) electrode has a lower transfer charge resistance (R) and a greater catalytic capacity than naked ZnS(QDs). A power conversion efficiency (PCE) of 9.4% was attained for this DSSC gadget, which is higher than that of a DSSC gadget utilizing ZnS(QDs), ZnS@N.f-MWCNTs, ZnS@rGO and Pt. Also, the DSSC device using ZnS@N.f-MWCNTs@rGO had a fill factor (FF) that was better than the other counter electrodes. The cyclic voltammetry and electrochemical impedance spectra (EIS) electron transfer measurements showed that ZnS@N.f-MWCNTs@rGO films can provide fast electron transfer from the electrolyte to the CE and great electrocatalytic activity to reduce triiodide to a CE based on ZnS@N.f-MWCNTs@rGO in the DSSC.

摘要

在这里,我们报告了硫化锌量子点(ZnS(QDs))锚定在氮掺杂功能化多壁碳纳米管(MWCNTs)上,MWCNTs 包裹在还原氧化石墨烯(rGO)上。MWCNTs 具有缠结的网络、特殊的比表面积和独特的空心结构,可能适合用作对电极(CE)材料。在染料敏化太阳能电池(DSSC)中,使用刮刀技术在掺氟氧化锡基底上制备了 ZnS@N.f-MWCNTs@rGO 复合作为 CE。电化学性能表明,在电解质/CE 界面,ZnS(QDs)和氮掺杂功能化 MWCNTs 包裹的 rGO(ZnS@N.f-MWCNTs@rGO)电极具有更低的转移电荷电阻(R)和更大的催化能力比裸露的 ZnS(QDs)。该 DSSC 器件获得了 9.4%的功率转换效率(PCE),高于使用 ZnS(QDs)、ZnS@N.f-MWCNTs、ZnS@rGO 和 Pt 的 DSSC 器件。此外,使用 ZnS@N.f-MWCNTs@rGO 的 DSSC 器件的填充因子(FF)优于其他对电极。循环伏安法和电化学阻抗谱(EIS)电子转移测量表明,ZnS@N.f-MWCNTs@rGO 薄膜可以提供从电解质到 CE 的快速电子转移,并具有出色的电催化活性,可将三碘化物还原为基于 ZnS@N.f-MWCNTs@rGO 的 CE 在 DSSC 中。

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