Carbon nanodots enhanced performance of Cs0.15FA0.85PbI3 perovskite solar cells

Yu Gao; Wenzhan Xu; Fang He; Pengbo Nie; Qingdan Yang; Zhichun Si; Hong Meng; Guodan Wei

doi:10.1007/s12274-020-3224-8

Nano Research 2021, 14(7): 2294-2300 https://doi.org/10.1007/s12274-020-3224-8

Research Article | Issue | Published: 05 July 2021

Carbon nanodots enhanced performance of Cs_0.15FA_0.85PbI₃ perovskite solar cells

Show Author's Information Hide Author's Information Yu Gao^{¹^,²}, Wenzhan Xu^{¹^,²}(

), Fang He^{¹^,²}, Pengbo Nie^{¹^,²}, Qingdan Yang^³, Zhichun Si^², Hong Meng^⁴, Guodan Wei^{¹^,²}(

)

1 Tsinghua-Berkeley Shenzhen Institute (TBSI), Tsinghua University, Shenzhen 518000, China

2 Tsinghua Shenzhen International Graduate School, Tsinghua University, Shenzhen 518000, China

3 School of Chemical Engineering and Light Industry, Guangdong University of Technology, Guangzhou 510080, China

4 Peking University Shenzhen Graduate School, Peking University, Shenzhen 518055, China

Keywords:

carbon nanodots, passivation, perovskite solar cells, power conversion efficiency

Topics:

Defects Lead compounds Nanodots Perovskite Semiconductor doping Silver compounds Thin film solar cells Thin films

Cite this article:

Gao Y, Xu W, He F, et al. Carbon nanodots enhanced performance of Cs_0.15FA_0.85PbI₃ perovskite solar cells. Nano Research, 2021, 14(7): 2294-2300. https://doi.org/10.1007/s12274-020-3224-8

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Abstract

A high-quality hybrid Cs_0.15FA_0.85PbI₃ thin film is deposited through doping of carbon nanodots (CNDs) into perovskite precursor solution. The corresponding inverted planar perovskite solar cells (PSCs) of ITO/PTAA/Cs_0.15FA_0.85PbI₃/PC₆₁BM/BCP/Ag exhibit an improvement in efficiency from 17.36% to 20.06%, which could be attributed to the passivation of the defects at the crystallized perovskite thin film and enhanced perovskite phase uniformity. The results of electron trap density indicate that the addition of CNDs significantly reduces the defects density at the perovskite thin film and the recombination of charge carriers in transport process is minimized. These results demonstrate that low-cost CNDs are effective additives for passivating defects, further reducing charge carrier recombination and improving device efficiency.

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Acknowledgements

Publication history

Received: 23 September 2020

Revised: 01 November 2020

Accepted: 03 November 2020

Published: 05 July 2021

Issue date: July 2021

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Acknowledgements

This work was supported by Shenzhen Science and Technology Innovation Committee (No. JCYJ20190809172615277) and China Postdoctoral Science Foundation (No. 2019TQ0163). This project was financially also supported by Shenzhen Municipal Development and Reform Commission, New Energy Technology Engineering Laboratory (No. SDRC [2016]172).