发光学报, 2019, 40 (2): 215, 网络出版: 2019-03-11  

表面配体和器件结构对PbS胶体量子点电池性能的影响

Effect of Surface Ligands and Device Configurations on Performance of PbS Colloidal Quantum Dot Solar Cells
作者单位
1 太原理工大学 新材料界面科学与工程教育部重点实验室, 山西 太原 030024
2 中国科学院 可再生能源重点实验室, 广东 广州 510640
摘要
利用吸收光谱、傅里叶变换红外光谱和循环伏安等表征技术, 分析了利用四丁基碘化铵(TBAI)和1,2-乙二硫醇(EDT)配体钝化处理的PbS胶体量子点的光学性质、表面化学及其能级结构, 并在此基础上分别以PbS-TBAI薄膜、PbS-EDT薄膜和PbS-TBAI/PbS-EDT薄膜作为有源层制备了PbS胶体量子点/ZnO纳米粒子异质结太阳能电池, 以比较研究表面配体和器件结构对器件光伏性能及其稳定性的影响。结果表明, TBAI和EDT均能与PbS胶体量子点表面原有的油酸配体实现良好置换, 但是配体置换之后量子点表面均残留少量油酸分子; PbS-TBAI薄膜的导带底为-5.12 eV, 价带顶为-3.86 eV, 而PbS-EDT薄膜的导带底为-4.99 eV, 价带顶为-3.74 eV, 后者相对前者出现了明显的能带上移; PbS-TBAI/PbS-EDT双配体器件的光伏性能最优, 能量转化效率达到4.43%; 随着空气暴露时间的增加, PbS-TBAI/PbS-EDT双配体器件和PbS-TBAI单配体器件表现出相似的性能变化趋势, 于3 d后达到最优光伏性能, 而PbS-EDT单配体器件的空气稳定性差, 3 d后的能量转换效率下降至初始效率的1/4。本工作的研究结果将不仅有助于加深对PbS胶体量子点电池性能变化规律的认识, 而且有望促进该类电池制备技术的进一步优化。
Abstract
The optical properties, surface chemistry and band energies of PbS colloidal quantum dots (CQDs) passivated with tetrabutylammonium iodide(PbS-TBAI) and 1,2-ethanedithiol(EDT) were analyzed by absorption spectroscopy, Fourier transform infrared spectroscopy and cyclic voltammetry measurements. Also, the photovoltaic performance and air stability of PbS CQDs/ZnO nanoparticles heterojunction solar cells using PbS-TBAI, PbS-EDT and PbS-TBAI/PbS-EDT films as active layers respectively were investigated. The results showed that both TBAI and EDT ligands could achieve good ligand exchange with original oleic acid ligands on the surface of PbS CQDs, while a small number of residual oleic acid molecules remained in the PbS CQDs films. The conduction band minimum and valence band maximum of the PbS CQDs treated with TBAI are -3.86 eV and -5.12 eV, while they can be upshifted to -3.74 eV and -4.99 eV, respectively, for the PbS CQDs treated with EDT. The PbS-TBAI/PbS-EDT device exhibited the highest power conversion efficiency of 4.43% among these three type of devices. With the increase of air exposure time, the PbS-TBAI/PbS-EDT device exhibited similar performance evolution to the PbS-TBAI device and achieved its best performance after three days of air exposure. However, the PbS-EDT device showed poor air stability and its efficiency was reduced to a quarter of its initial value after three days of air exposure.This work is not only capable of deepening the understanding of the performance evolution of PbS-CQD solar cells, but also capable of guiding the further optimization of these devices.

高文辉, 翟光美, 张彩峰, 邵智猛, 郑露露, 张勇, 李学敏, 许并社. 表面配体和器件结构对PbS胶体量子点电池性能的影响[J]. 发光学报, 2019, 40(2): 215. GAO Wen-hui, ZHAI Guang-mei, ZHANG Cai-feng, SHAO Zhi-meng, ZHENG Lu-lu, ZHANG Yong, LI Xue-min, XU Bing-she. Effect of Surface Ligands and Device Configurations on Performance of PbS Colloidal Quantum Dot Solar Cells[J]. Chinese Journal of Luminescence, 2019, 40(2): 215.

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