【摘 要】
:
All-inorganic perovskite solar cells suffer from low performance due to unsatisfactory carrier transport and light harvesting efficiency.Semiconductor nanopillar arrays can reduce light reflection loss and suppress exciton recombination dynamics in optoel
【机 构】
:
College of Energy,Soochow Institute for Energy and Materials Innovations,and Key Laboratory of Advan
论文部分内容阅读
All-inorganic perovskite solar cells suffer from low performance due to unsatisfactory carrier transport and light harvesting efficiency.Semiconductor nanopillar arrays can reduce light reflection loss and suppress exciton recombination dynamics in optoelectronic devices.In all-inorganic perovskite solar cells,few studies employing TiO2 nanopillar arrays (TiO2 NaPAs) have been reported to improve the device performance.Herein,well-arranged TiO2 NaPAs are chosen to enhance the interracial contact between perovskite and electron transporting layers for improving the carrier transport.Notably,TiO2 NaPAs can be directly fabricated on rigid/flexible substrates at roughly room temperature by unique glancing angle deposition,which is more available than high-temperature hydrothermal/solvothermal methods.By embedding TiO2 NaPAs into chemical processable CsPbI2Br layers,continuous and intimate films are readily formed,guaranteeing large physical contact for facilitating more effective electron injection and charge separation.The vertically grown TiO2 NaPAs also provide a straightforward electron transporting path to electrodes.In addition,TiO2 NaPAs can guide the incident light and enhance the light-harvesting ability of CsPbI2Br films.As a result,the solar cell with TiO2 NaPAs displays a power conversion efficiency of 11.35% higher than planar control of 10.04%,and exhibits better long-term thermal stability.This strategy provides an opportunity by constructing direct interfacial regulation towards the performance improvement of inorganic perovskite solar cells.
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