| Literature DB >> 30964628 |
Faqi Zhan1,2, Yang Liu2, Keke Wang2, Yisi Liu3, Xuetao Yang2, Yahui Yang4, Xiaoqing Qiu2, Wenzhang Li2, Jie Li2.
Abstract
Non-stoichiometric ratio semiconductor materials have exhibited excellent performance in energy conversion and storage fields. However, the hydrogen treatment method that is commonly used to introduce oxygen vacancies is expensive and dangerous. In this paper, a novel microbattery method using Zn powder and Fe powder as reductant has been developed to synthesize the oxygen vacancy modified WO3- x films and oxygen-deficient heterojunction films (ZnWO4- x/WO3- x and Fe2O3- x/WO3- x) at room temperature. The as-prepared WO3- x and ZnWO4- x/WO3- x heterojunction films exhibit improved photoelectrochemical performance. It is worth noting that this microbattery method can quickly introduce oxygen vacancies into semiconductor materials, including powders and films at room temperature.Entities:
Keywords: heterojunction films; in situ; interfacial charge transfer; microbattery method; oxygen vacancies; photoelectrochemical property
Year: 2019 PMID: 30964628 DOI: 10.1021/acsami.8b21895
Source DB: PubMed Journal: ACS Appl Mater Interfaces ISSN: 1944-8244 Impact factor: 9.229