Boosting the Solar Water Oxidation Performance of Fe2O3 Photoanode via Embedding Laser-Generated Pt Nanocrystals

Fan Li; Jie Jian; Shiyuan Wang; Lichao Jia; Hongqiang Wang

doi:10.1002/smsc.202300318

Boosting the Solar Water Oxidation Performance of Fe₂O₃ Photoanode via Embedding Laser-Generated Pt Nanocrystals

Fan Li, Jie Jian, Shiyuan Wang, Lichao Jia, Hongqiang Wang

School of Materials Sience and Engineering

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

α-Fe₂O₃ with suitable band structure, good chemical stability, and easy preparation, is a potential photoanode material. However, the key to enhance the performance of α-Fe₂O₃ photoanode is to improve the transport characteristics of bulk carriers. It is expected to form a Schottky barrier to improve the carrier separation efficiency by embedding metal nanoparticles into the matrix, but the process is still challenging. Herein, a strategy of forming the Schottky barrier is shown to improve bulk carrier transport dynamics by embedding laser-generated Pt nanocrystals in α-Fe₂O₃ photoanode, which achieves photocurrent densities of up to 1.16 mA cm⁻² at 1.23 V_RHE (from original 0.21 mA cm⁻²). This work provides another way to promote the carrier transfer and separation of α-Fe₂O₃, which is of great significance to improve the photoelectrochemical water splitting performance.

Original language	English
Article number	2300318
Journal	Small Science
Volume	4
Issue number	5
DOIs	https://doi.org/10.1002/smsc.202300318
State	Published - May 2024

Keywords

composite FeO@Pt
nanocrystals embedding
nanoporous α-FeO
photoanodes
photoelectrochemical water splitting

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1002/smsc.202300318

Cite this

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title = "Boosting the Solar Water Oxidation Performance of Fe2O3 Photoanode via Embedding Laser-Generated Pt Nanocrystals",

abstract = "α-Fe2O3 with suitable band structure, good chemical stability, and easy preparation, is a potential photoanode material. However, the key to enhance the performance of α-Fe2O3 photoanode is to improve the transport characteristics of bulk carriers. It is expected to form a Schottky barrier to improve the carrier separation efficiency by embedding metal nanoparticles into the matrix, but the process is still challenging. Herein, a strategy of forming the Schottky barrier is shown to improve bulk carrier transport dynamics by embedding laser-generated Pt nanocrystals in α-Fe2O3 photoanode, which achieves photocurrent densities of up to 1.16 mA cm−2 at 1.23 VRHE (from original 0.21 mA cm−2). This work provides another way to promote the carrier transfer and separation of α-Fe2O3, which is of great significance to improve the photoelectrochemical water splitting performance.",

keywords = "composite FeO@Pt, nanocrystals embedding, nanoporous α-FeO, photoanodes, photoelectrochemical water splitting",

author = "Fan Li and Jie Jian and Shiyuan Wang and Lichao Jia and Hongqiang Wang",

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T1 - Boosting the Solar Water Oxidation Performance of Fe2O3 Photoanode via Embedding Laser-Generated Pt Nanocrystals

AU - Li, Fan

AU - Jian, Jie

AU - Wang, Shiyuan

AU - Jia, Lichao

AU - Wang, Hongqiang

PY - 2024/5

Y1 - 2024/5

N2 - α-Fe2O3 with suitable band structure, good chemical stability, and easy preparation, is a potential photoanode material. However, the key to enhance the performance of α-Fe2O3 photoanode is to improve the transport characteristics of bulk carriers. It is expected to form a Schottky barrier to improve the carrier separation efficiency by embedding metal nanoparticles into the matrix, but the process is still challenging. Herein, a strategy of forming the Schottky barrier is shown to improve bulk carrier transport dynamics by embedding laser-generated Pt nanocrystals in α-Fe2O3 photoanode, which achieves photocurrent densities of up to 1.16 mA cm−2 at 1.23 VRHE (from original 0.21 mA cm−2). This work provides another way to promote the carrier transfer and separation of α-Fe2O3, which is of great significance to improve the photoelectrochemical water splitting performance.

AB - α-Fe2O3 with suitable band structure, good chemical stability, and easy preparation, is a potential photoanode material. However, the key to enhance the performance of α-Fe2O3 photoanode is to improve the transport characteristics of bulk carriers. It is expected to form a Schottky barrier to improve the carrier separation efficiency by embedding metal nanoparticles into the matrix, but the process is still challenging. Herein, a strategy of forming the Schottky barrier is shown to improve bulk carrier transport dynamics by embedding laser-generated Pt nanocrystals in α-Fe2O3 photoanode, which achieves photocurrent densities of up to 1.16 mA cm−2 at 1.23 VRHE (from original 0.21 mA cm−2). This work provides another way to promote the carrier transfer and separation of α-Fe2O3, which is of great significance to improve the photoelectrochemical water splitting performance.

KW - composite FeO@Pt

KW - nanocrystals embedding

KW - nanoporous α-FeO

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