Litcius/Paper detail

Enhanced Photovoltaic Performances of La-Doped Bismuth Ferrite/Zinc Oxide Heterojunction by Coupling Piezo-Phototronic Effect and Ferroelectricity

Yuanzheng Zhang, Liya Yang, Yaju Zhang, Zhenyu Ding, Mengjun Wu, Yan Zhou, Chunli Diao, Haiwu Zheng, Xingfu Wang, Zhong Lin Wang

2020ACS Nano106 citationsDOI

Abstract

) of the device increase by 8.4% and 54.7%, respectively. Meanwhile, the rise (/decay) time is modulated from 153.7 (/108.8) to 61.28 (/74.86) ms. Systematical band diagram analysis reveals that the promotion of photogenerated carriers and boost of the photovoltaic performances of the device can be attributed to the modulated carrier transport behaviors at the BLFO/ZnO interface and the superposed driving forces arising from the adding up of the piezoelectric potential and ferroelectric polarization. In addition, COMSOL simulation results of piezopotential distribution in ZnO nanowire arrays and the energy band structure change of the heterojunction further confirm the mechanisms. This work not only presents an approach to design high-performance ferroelectric photovoltaic devices but also further broadens the research scope of piezo-phototronics.

Topics & Concepts

Materials scienceBismuth ferriteFerroelectricityHeterojunctionDopingPhotovoltaic systemOptoelectronicsZinc ferriteZincFerrite (magnet)Coupling (piping)DielectricMultiferroicsComposite materialElectrical engineeringMetallurgyEngineeringMultiferroics and related materialsAdvanced Condensed Matter PhysicsZnO doping and properties