Etching treatment of vertical WO3 nanoplates as a photoanode for enhanced photoelectrochemical performance

Zhefei Zhao; Teera Butburee; Miaoqiang Lyv; Piangjai Peerakiatkhajohn; Songcan Wang; Lianzhou Wang; Huajun Zheng

doi:10.1039/c6ra11750c

Etching treatment of vertical WO₃ nanoplates as a photoanode for enhanced photoelectrochemical performance

Zhefei Zhao, Teera Butburee, Miaoqiang Lyv, Piangjai Peerakiatkhajohn, Songcan Wang, Lianzhou Wang, Huajun Zheng

科研成果: 期刊稿件 › 文章 › 同行评审

29 引用（Scopus）

摘要

Vertically grown WO₃ nanoplates (WO₃NP) were successfully fabricated by a one-step hydrothermal process using citric acid as a structure directing agent. An innovative etching method was developed to obtain increased surface voids, active crystal facets and surface groups simultaneously, which led to a remarkably improved photocurrent density of ∼1.2 mA cm^-2 at 1.23 V vs. RHE, compared to 0.97 mA cm^-2 of pristine WO₃. Incident photon to current efficiency (IPCE) measurements also displayed a substantive increase of photoresponse in the intrinsic absorption range. Interestingly, a lower onset potential can be obtained after etching which is caused by the change of conduction and valence band positions. Moreover, the photoelectrocatalytic activity of WO₃ for degrading methylene blue (MB) was also evaluated. This effective design could provide a promising method to enhance the efficiency of photoelectrochemical performance based on WO₃ photoanodes.

源语言	英语
页（从-至）	68204-68210
页数	7
期刊	RSC Advances
卷	6
期	72
DOI	https://doi.org/10.1039/c6ra11750c
出版状态	已出版 - 2016
已对外发布	是

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abstract = "Vertically grown WO3 nanoplates (WO3NP) were successfully fabricated by a one-step hydrothermal process using citric acid as a structure directing agent. An innovative etching method was developed to obtain increased surface voids, active crystal facets and surface groups simultaneously, which led to a remarkably improved photocurrent density of ∼1.2 mA cm-2 at 1.23 V vs. RHE, compared to 0.97 mA cm-2 of pristine WO3. Incident photon to current efficiency (IPCE) measurements also displayed a substantive increase of photoresponse in the intrinsic absorption range. Interestingly, a lower onset potential can be obtained after etching which is caused by the change of conduction and valence band positions. Moreover, the photoelectrocatalytic activity of WO3 for degrading methylene blue (MB) was also evaluated. This effective design could provide a promising method to enhance the efficiency of photoelectrochemical performance based on WO3 photoanodes.",

author = "Zhefei Zhao and Teera Butburee and Miaoqiang Lyv and Piangjai Peerakiatkhajohn and Songcan Wang and Lianzhou Wang and Huajun Zheng",

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AU - Zhao, Zhefei

AU - Butburee, Teera

AU - Lyv, Miaoqiang

AU - Peerakiatkhajohn, Piangjai

AU - Wang, Songcan

AU - Wang, Lianzhou

AU - Zheng, Huajun

PY - 2016

Y1 - 2016

N2 - Vertically grown WO3 nanoplates (WO3NP) were successfully fabricated by a one-step hydrothermal process using citric acid as a structure directing agent. An innovative etching method was developed to obtain increased surface voids, active crystal facets and surface groups simultaneously, which led to a remarkably improved photocurrent density of ∼1.2 mA cm-2 at 1.23 V vs. RHE, compared to 0.97 mA cm-2 of pristine WO3. Incident photon to current efficiency (IPCE) measurements also displayed a substantive increase of photoresponse in the intrinsic absorption range. Interestingly, a lower onset potential can be obtained after etching which is caused by the change of conduction and valence band positions. Moreover, the photoelectrocatalytic activity of WO3 for degrading methylene blue (MB) was also evaluated. This effective design could provide a promising method to enhance the efficiency of photoelectrochemical performance based on WO3 photoanodes.

AB - Vertically grown WO3 nanoplates (WO3NP) were successfully fabricated by a one-step hydrothermal process using citric acid as a structure directing agent. An innovative etching method was developed to obtain increased surface voids, active crystal facets and surface groups simultaneously, which led to a remarkably improved photocurrent density of ∼1.2 mA cm-2 at 1.23 V vs. RHE, compared to 0.97 mA cm-2 of pristine WO3. Incident photon to current efficiency (IPCE) measurements also displayed a substantive increase of photoresponse in the intrinsic absorption range. Interestingly, a lower onset potential can be obtained after etching which is caused by the change of conduction and valence band positions. Moreover, the photoelectrocatalytic activity of WO3 for degrading methylene blue (MB) was also evaluated. This effective design could provide a promising method to enhance the efficiency of photoelectrochemical performance based on WO3 photoanodes.

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Etching treatment of vertical WO3 nanoplates as a photoanode for enhanced photoelectrochemical performance

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Etching treatment of vertical WO₃ nanoplates as a photoanode for enhanced photoelectrochemical performance