Anion Shielding in Nb-WO3/WS2 Heterostructures: A Strategy for Efficient and Corrosion-Resistant Seawater Electrolysis

Lin Yang; Zihao Xing; Yijun Chen; Ming Yang; Wei Liu; Kaichi Qin; Xinran Sun; Qianyu Li; Meiling Xiao; Zhiyu Jia; Jinfa Chang

doi:10.1002/smll.202509761

Anion Shielding in Nb-WO₃/WS₂ Heterostructures: A Strategy for Efficient and Corrosion-Resistant Seawater Electrolysis

Lin Yang
, Zihao Xing^*
, Yijun Chen
, Ming Yang
, Wei Liu
, Kaichi Qin
, Xinran Sun
, Qianyu Li
, Meiling Xiao
, Zhiyu Jia^*
, Jinfa Chang^*

^*Corresponding author for this work

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

1 Citation (Scopus)

Abstract

Seawater electrolysis is a promising route for sustainable hydrogen production, but chloride-induced corrosion severely limits its practicality. Here, a dual-modulated Nb-WO₃/WS₂ heterostructure electrocatalyst that simultaneously enhances oxygen evolution reaction (OER) kinetics and resists chloride corrosion is designed. The Nb-WO₃/WS₂ anode achieves remarkably low overpotentials of 212 and 369 mV at 10 and 100 mA cm⁻², respectively, in alkaline simulated seawater, with a Tafel slope of 35.58 mV dec⁻¹. The catalyst also exhibits remarkable stability, maintaining performance over 1000 CV cycles. Mechanistic studies reveal that Nb doping introduces oxygen vacancies and modulates the electronic structure, while the in situ formation of a WO_x protective layer during OER effectively repels Cl⁻ via anion shielding. This work provides a strategic approach to developing durable, efficient, and non-precious-metal-based catalysts for seawater splitting.

Original language	English
Article number	e09761
Journal	Small
Volume	21
Issue number	51
DOIs	https://doi.org/10.1002/smll.202509761
Publication status	Published - 23 Dec 2025
Externally published	Yes

Keywords

anion shielding
electrocatalysis
oxygen evolution reaction
seawater splitting

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10.1002/smll.202509761

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title = "Anion Shielding in Nb-WO3/WS2 Heterostructures: A Strategy for Efficient and Corrosion-Resistant Seawater Electrolysis",

abstract = "Seawater electrolysis is a promising route for sustainable hydrogen production, but chloride-induced corrosion severely limits its practicality. Here, a dual-modulated Nb-WO3/WS2 heterostructure electrocatalyst that simultaneously enhances oxygen evolution reaction (OER) kinetics and resists chloride corrosion is designed. The Nb-WO3/WS2 anode achieves remarkably low overpotentials of 212 and 369 mV at 10 and 100 mA cm−2, respectively, in alkaline simulated seawater, with a Tafel slope of 35.58 mV dec−1. The catalyst also exhibits remarkable stability, maintaining performance over 1000 CV cycles. Mechanistic studies reveal that Nb doping introduces oxygen vacancies and modulates the electronic structure, while the in situ formation of a WOx protective layer during OER effectively repels Cl− via anion shielding. This work provides a strategic approach to developing durable, efficient, and non-precious-metal-based catalysts for seawater splitting.",

keywords = "anion shielding, electrocatalysis, oxygen evolution reaction, seawater splitting",

author = "Lin Yang and Zihao Xing and Yijun Chen and Ming Yang and Wei Liu and Kaichi Qin and Xinran Sun and Qianyu Li and Meiling Xiao and Zhiyu Jia and Jinfa Chang",

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doi = "10.1002/smll.202509761",

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T2 - A Strategy for Efficient and Corrosion-Resistant Seawater Electrolysis

AU - Yang, Lin

AU - Xing, Zihao

AU - Chen, Yijun

AU - Yang, Ming

AU - Liu, Wei

AU - Qin, Kaichi

AU - Sun, Xinran

AU - Li, Qianyu

AU - Xiao, Meiling

AU - Jia, Zhiyu

AU - Chang, Jinfa

PY - 2025/12/23

Y1 - 2025/12/23

N2 - Seawater electrolysis is a promising route for sustainable hydrogen production, but chloride-induced corrosion severely limits its practicality. Here, a dual-modulated Nb-WO3/WS2 heterostructure electrocatalyst that simultaneously enhances oxygen evolution reaction (OER) kinetics and resists chloride corrosion is designed. The Nb-WO3/WS2 anode achieves remarkably low overpotentials of 212 and 369 mV at 10 and 100 mA cm−2, respectively, in alkaline simulated seawater, with a Tafel slope of 35.58 mV dec−1. The catalyst also exhibits remarkable stability, maintaining performance over 1000 CV cycles. Mechanistic studies reveal that Nb doping introduces oxygen vacancies and modulates the electronic structure, while the in situ formation of a WOx protective layer during OER effectively repels Cl− via anion shielding. This work provides a strategic approach to developing durable, efficient, and non-precious-metal-based catalysts for seawater splitting.

AB - Seawater electrolysis is a promising route for sustainable hydrogen production, but chloride-induced corrosion severely limits its practicality. Here, a dual-modulated Nb-WO3/WS2 heterostructure electrocatalyst that simultaneously enhances oxygen evolution reaction (OER) kinetics and resists chloride corrosion is designed. The Nb-WO3/WS2 anode achieves remarkably low overpotentials of 212 and 369 mV at 10 and 100 mA cm−2, respectively, in alkaline simulated seawater, with a Tafel slope of 35.58 mV dec−1. The catalyst also exhibits remarkable stability, maintaining performance over 1000 CV cycles. Mechanistic studies reveal that Nb doping introduces oxygen vacancies and modulates the electronic structure, while the in situ formation of a WOx protective layer during OER effectively repels Cl− via anion shielding. This work provides a strategic approach to developing durable, efficient, and non-precious-metal-based catalysts for seawater splitting.

KW - anion shielding

KW - electrocatalysis

KW - oxygen evolution reaction

KW - seawater splitting

UR - https://www.scopus.com/pages/publications/105021527700

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DO - 10.1002/smll.202509761

M3 - Article

AN - SCOPUS:105021527700

SN - 1613-6810

VL - 21

JO - Small

JF - Small

IS - 51

M1 - e09761

ER -

Anion Shielding in Nb-WO₃/WS₂ Heterostructures: A Strategy for Efficient and Corrosion-Resistant Seawater Electrolysis

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Keywords

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