摘要
为增强以银为背电极的正置结构有机-无机金属卤化物钙钛矿太阳电池(PSCs)的长期稳定性,研究利用射频磁控溅射技术在氧化钼层与银背电极之间沉积一层铟锡氧化物(ITO)来对PSCs进行内封装的技术。为防止ITO层溅射对下方已沉积的钙钛矿层和有机空穴传输层造成损伤,研究ITO层溅射功率和厚度对PSCs光伏性能的影响,获得优化的ITO层制备工艺,发现在ITO层溅射功率为30 W、厚度为40 nm时所制备的PSCs光伏性能最优。为进一步提升PSCs性能,对比溅射法和热蒸发法沉积银背电极对PSCs性能的影响,发现与蒸发法相比,采用溅射银背电极的PSCs光伏性能更佳,其光电转换效率可达到17.86%。PSCs光伏性能的长期稳定性测试和X射线衍射结果分析表明,溅射ITO阻隔层的插入可有效抑制钙钛矿层中的卤素离子与银背电极之间的扩散反应,在不降低PSCs效率的同时可显著改善PSCs稳定性,所制备的PSCs在干燥空气中存放4500h后仍能保持初始效率的95%。
To enhance the long-term stability of organic-inorganic metal halide perovskite solar cells(PSCs)with silver as the rear electrode,the technique of depositing a indium tin oxide(ITO)layer between the molybdenum oxide layer and the silver back electrode using radio frequency magnetron sputtering for inner encapsulation of PSCs has been studied.To prevent damage to the pre-deposited perovskite layer and organic hole transport layer caused by the ITO layer sputtering,the effects of the sputtering power and the thickness of ITO layer on the photovoltaic performance of PSCs are studied,and an optimized ITO layer preparation process is obtained.It is found that the photovoltaic performance of PSCs is optimal when the sputtering power and the thickness of ITO layer is 30 W and 40 nm,respectively.To further improve device performance,the effects of sputtering and thermal evaporation methods for depositing silver rear electrodes on device performance are analyzed.It is found that compared with thermal evaporation method,PSCs with sputtering silver rear electrode has better photovoltaic performance and achieves a power conversion efficiency of 17.86%.The long-term stability testing and X-ray diffraction analysis of the device indicate that the insertion of the sputtered ITO barrier layer can effectively suppress the diffusion reaction between halogen ions in the perovskite layer and the silver back electrode,significantly improving the stability of the PSCs without reducing the device efficiency.After being stored in dry air for 4500 hours,the prepared PSCs with the sputtered ITO barrier layer can still maintain 95%of its initial efficiency.
作者
蒋树刚
张晨轩
刘红燕
刘晔
于威
路万兵
Jiang Shugang;Zhang Chenxuan;Liu Hongyan;Liu Ye;Yu Wei;Lu Wanbing(National&Local Joint Engineering Laboratory of New Energy Photoelectric Devices,College of Physics Science and Technology,Hebei University,Baoding 071002,China;College of Automotive and Electronic Engineering,Baoding University,Baoding 071002,China)
出处
《太阳能学报》
EI
CAS
CSCD
北大核心
2024年第4期65-71,共7页
Acta Energiae Solaris Sinica
基金
河北省自然科学基金(E2021201014)。
关键词
钙钛矿太阳电池
稳定性
溅射
电极
封装
perovskite solar cells
stability
sputtering
electrodes
encapsulation
