期刊
ACS SUSTAINABLE CHEMISTRY & ENGINEERING
卷 7, 期 14, 页码 12032-12043出版社
AMER CHEMICAL SOC
DOI: 10.1021/acssuschemeng.9b00679
关键词
BaTiO3; Built-in electric field; Photocatalysis; Photoanode; Band bending
资金
- University Grants Commission, Government of India [F.4-1/2006(BSR)/7-197/2007(BSR)]
- SERB, New Delhi, Government of India [EMR-2016-003074]
- Department of Science and Technology, Science and Engineering Research Board [YSS/2014/00026]
- Department of Science and Technology, nanomission [DST/NM/NB-2018/10(G)]
In the field of environmental remediation and sustainability, the built-in electric field of ferroelectrics has been regarded as a promising strategy to enhance photocatalytic (PC) dye degradation and photoelectrochemical (PEC) water splitting. Here, we report on Ce-doped BaTiO3 (BT) nanoassemblies prepared by a hydrothermal route. X-ray diffraction reveals the phase transformation from tetragonal to cubic on the sintering temperature and Ce doping. From X-ray photoelectron spectroscopy (XPS), the oxygen vacancies are found to be maximum for 4 mol % of Ce concentration. The ferroelectric and piezoelectric measurements disclose a higher remnant polarization (1.76 mu C cm(-2)) and d(33) coefficient (15 pCN(-1)) at 4 mol % due to the built-in electric field. Thus, we observed a significantly improved PC dye degradation with the rate constant (k) of 0.0139 m(-1) (methylene blue), 0.0147 m(-1) (methyl violet) at 4 mol %, and 0.0117 m(-1) (congo red) at 6 mol %. PEC water splitting showed that the photoanode fabricated at 4 mol % of Ce exhibits enriched photocurrent density (1.45 mA cm(-2)), impressive early onset of water oxidation (-0.504 V), and hydrogen gas evolution (22.50 mu mol h(-1) cm(-2)). Poling studies display a significant enhancement in both PC and PEC properties indicating the built-in electric field assisted activities of Ce-doped BT nanoassemblies. The underlying mechanisms behind the degradation efficiency and improved photocurrent density are established via the built-in electric field facilitating charge carrier detachment and transport as evidenced by the photoluminescence decay and XPS valence band spectra.
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