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Effect of acid treatment on boosting the photoelectrochemical performance of doped and codoped α-Fe(2)O(3) photoanodes

Acid treatment of Ti-doped α-Fe(2)O(3) photoanode can reduce the onset potential and promote the photocurrent density for photoelectrochemical (PEC) water splitting reaction. However, the inner mechanism of how this occurs has not yet been clarified. This report compares the effect of HCl hydrotherm...

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Autores principales: Wang, Yujie, Liu, Jinlong, Xu, Jie, Hao, Xiaobin
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Royal Society of Chemistry 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10240174/
https://www.ncbi.nlm.nih.gov/pubmed/37284185
http://dx.doi.org/10.1039/d3ra01576a
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author Wang, Yujie
Liu, Jinlong
Xu, Jie
Hao, Xiaobin
author_facet Wang, Yujie
Liu, Jinlong
Xu, Jie
Hao, Xiaobin
author_sort Wang, Yujie
collection PubMed
description Acid treatment of Ti-doped α-Fe(2)O(3) photoanode can reduce the onset potential and promote the photocurrent density for photoelectrochemical (PEC) water splitting reaction. However, the inner mechanism of how this occurs has not yet been clarified. This report compares the effect of HCl hydrothermal treatment on α-Fe(2)O(3) photoanodes doped with Ge, Pt, Ti, and Sn or codoped with TiGe, TiPt, and TiSn. The findings show that the promotion effect of HCl hydrothermal treatment was far less significant on the Ge-, Pt-, and Sn-doped α-Fe(2)O(3) than on the Ti-doped one. In contrast, the codoped photoanodes could realize a lift in the photocurrent of up to 39% at 1.23 V(RHE) (versus the reversible hydrogen electrode) and a reduction in the potential onset by ∼60 mV after HCl hydrothermal treatment. Anatase TiO(2) was detected by Raman spectroscopy on the Ti-doped α-Fe(2)O(3) with adequate treatment in HCl solution. Thus, the performance promotion by acid treatment was ascribed to the surface-concentrated Ti–O bonds acting as a passivation layer that could increase the charge-capture capacity and reduce the charge-transfer resistance, as demonstrated by the potential-modulated electrochemical impedance spectroscopy results. HCl treatment of the in situ-doped α-Fe(2)O(3) and an excessive treatment time for the ex situ-doped α-Fe(2)O(3) caused an inhibition in the PEC performance, which could be attributed to the adverse effect of lattice defects induced by acid corrosion. The application scope of HCl treatment on the doped α-Fe(2)O(3) was determined by revealing its working mechanism.
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spelling pubmed-102401742023-06-06 Effect of acid treatment on boosting the photoelectrochemical performance of doped and codoped α-Fe(2)O(3) photoanodes Wang, Yujie Liu, Jinlong Xu, Jie Hao, Xiaobin RSC Adv Chemistry Acid treatment of Ti-doped α-Fe(2)O(3) photoanode can reduce the onset potential and promote the photocurrent density for photoelectrochemical (PEC) water splitting reaction. However, the inner mechanism of how this occurs has not yet been clarified. This report compares the effect of HCl hydrothermal treatment on α-Fe(2)O(3) photoanodes doped with Ge, Pt, Ti, and Sn or codoped with TiGe, TiPt, and TiSn. The findings show that the promotion effect of HCl hydrothermal treatment was far less significant on the Ge-, Pt-, and Sn-doped α-Fe(2)O(3) than on the Ti-doped one. In contrast, the codoped photoanodes could realize a lift in the photocurrent of up to 39% at 1.23 V(RHE) (versus the reversible hydrogen electrode) and a reduction in the potential onset by ∼60 mV after HCl hydrothermal treatment. Anatase TiO(2) was detected by Raman spectroscopy on the Ti-doped α-Fe(2)O(3) with adequate treatment in HCl solution. Thus, the performance promotion by acid treatment was ascribed to the surface-concentrated Ti–O bonds acting as a passivation layer that could increase the charge-capture capacity and reduce the charge-transfer resistance, as demonstrated by the potential-modulated electrochemical impedance spectroscopy results. HCl treatment of the in situ-doped α-Fe(2)O(3) and an excessive treatment time for the ex situ-doped α-Fe(2)O(3) caused an inhibition in the PEC performance, which could be attributed to the adverse effect of lattice defects induced by acid corrosion. The application scope of HCl treatment on the doped α-Fe(2)O(3) was determined by revealing its working mechanism. The Royal Society of Chemistry 2023-06-05 /pmc/articles/PMC10240174/ /pubmed/37284185 http://dx.doi.org/10.1039/d3ra01576a Text en This journal is © The Royal Society of Chemistry https://creativecommons.org/licenses/by-nc/3.0/
spellingShingle Chemistry
Wang, Yujie
Liu, Jinlong
Xu, Jie
Hao, Xiaobin
Effect of acid treatment on boosting the photoelectrochemical performance of doped and codoped α-Fe(2)O(3) photoanodes
title Effect of acid treatment on boosting the photoelectrochemical performance of doped and codoped α-Fe(2)O(3) photoanodes
title_full Effect of acid treatment on boosting the photoelectrochemical performance of doped and codoped α-Fe(2)O(3) photoanodes
title_fullStr Effect of acid treatment on boosting the photoelectrochemical performance of doped and codoped α-Fe(2)O(3) photoanodes
title_full_unstemmed Effect of acid treatment on boosting the photoelectrochemical performance of doped and codoped α-Fe(2)O(3) photoanodes
title_short Effect of acid treatment on boosting the photoelectrochemical performance of doped and codoped α-Fe(2)O(3) photoanodes
title_sort effect of acid treatment on boosting the photoelectrochemical performance of doped and codoped α-fe(2)o(3) photoanodes
topic Chemistry
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10240174/
https://www.ncbi.nlm.nih.gov/pubmed/37284185
http://dx.doi.org/10.1039/d3ra01576a
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