High Performance Ferroelectric‐modulated Photoelectrodes by Using Grid Charge Collector
Jialin Shao, Huiya Liu, Xiao Jiang, Yujie Wang, Lili Luo, Yingtao Li, Zemin Zhang, Bingan Lu
Abstract
Abstract Metal oxide‐based photoelectrochemicals (PEC) are promising for solar‐fuel conversion if the issues of excessive charge carrier recombination in bulk can be resolved. Ferroelectric modulation of photoelectrodes is a remedial strategy but is less available due to the contradiction between the screening effect and free carrier collection. This work designed and fabricated a novel ferroelectric‐modulated photocathode (p‐type CuBi 2 O 4 /PbZrTiO, CBO/PZT) with gird‐like gold (G‐Au) charge collector under theoretical guidance. Several characterizations, including Multiphysics simulations and optoelectronic and interfacial electronic energy levels calculations, proved the critical role of the G‐Au charge collector in decoupling charge collecting and screening. As a result, the positively polarized photocathode exhibited the best performance with an average H 2 O 2 concentration around 1.5 mol (L h m 2 ) −1 . Thus, this work demonstrated the successful integration of ferroelectric in PEC photoelectrodes with improved photocarrier collection using a grid metal collector, which can be broadly applied to other optoelectronic systems.