Atomic-level tungsten doping triggered low overpotential for electrocatalytic water splitting

Mengmeng Jin; Jiewei Li; Jingchang Gao; Weilan Liu; Jing Han; Haimin Liu; Da Zhan; Linfei Lai

doi:10.1016/j.jcis.2020.11.015

Atomic-level tungsten doping triggered low overpotential for electrocatalytic water splitting

Mengmeng Jin, Jiewei Li, Jingchang Gao, Weilan Liu, Jing Han, Haimin Liu, Da Zhan, Linfei Lai

SCHOOL OF FLEXIBLE ELECTRONICS(FUTURE TECHNOLOGIES)|INSTITUTE OF ADVANCED MATERIALS(IAM)

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

18 Scopus citations

Abstract

The design of electrocatalysts with lower overpotential is of great significance for water splitting. Herein, cobalt hydroxide carbonate (CCH) has been used as a model to demonstrate the boost of its oxygen evolution reaction (OER) activity by atomic doping of W⁶⁺ (W-CCH). The 5 at % W doping reduced the OER overpotential of CCH by 95.3 mV at 15 mA cm⁻², and increased the current density by 2.8 times at 1.65 V. 5%W-PCCH || 5%W-CCH-based electrolyzer only required a potential of 1.65 V to afford 10 mA cm⁻² for full water splitting. The W⁶⁺ in CCH are active sites for O₂^– adsorption and induced an incesaed electron density near the Fermi level, which facilitates the charge transfer during electrocatalysis. The W⁶⁺ doping has been validated as an efficient booster for transition-metal carbonate hydroxides-based electrocatalysts, which has half or more than half-filled d-bands.

Original language	English
Pages (from-to)	581-589
Number of pages	9
Journal	Journal of Colloid and Interface Science
Volume	587
DOIs	https://doi.org/10.1016/j.jcis.2020.11.015
State	Published - Apr 2021

Keywords

Electrochemistry
Heterometal doping
Oxygen evolution reaction
Water splitting

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10.1016/j.jcis.2020.11.015

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title = "Atomic-level tungsten doping triggered low overpotential for electrocatalytic water splitting",

abstract = "The design of electrocatalysts with lower overpotential is of great significance for water splitting. Herein, cobalt hydroxide carbonate (CCH) has been used as a model to demonstrate the boost of its oxygen evolution reaction (OER) activity by atomic doping of W6+ (W-CCH). The 5 at % W doping reduced the OER overpotential of CCH by 95.3 mV at 15 mA cm−2, and increased the current density by 2.8 times at 1.65 V. 5%W-PCCH || 5%W-CCH-based electrolyzer only required a potential of 1.65 V to afford 10 mA cm−2 for full water splitting. The W6+ in CCH are active sites for O2– adsorption and induced an incesaed electron density near the Fermi level, which facilitates the charge transfer during electrocatalysis. The W6+ doping has been validated as an efficient booster for transition-metal carbonate hydroxides-based electrocatalysts, which has half or more than half-filled d-bands.",

keywords = "Electrochemistry, Heterometal doping, Oxygen evolution reaction, Water splitting",

author = "Mengmeng Jin and Jiewei Li and Jingchang Gao and Weilan Liu and Jing Han and Haimin Liu and Da Zhan and Linfei Lai",

note = "Publisher Copyright: {\textcopyright} 2020 Elsevier Inc.",

year = "2021",

month = apr,

doi = "10.1016/j.jcis.2020.11.015",

language = "英语",

volume = "587",

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journal = "Journal of Colloid and Interface Science",

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T1 - Atomic-level tungsten doping triggered low overpotential for electrocatalytic water splitting

AU - Jin, Mengmeng

AU - Li, Jiewei

AU - Gao, Jingchang

AU - Liu, Weilan

AU - Han, Jing

AU - Liu, Haimin

AU - Zhan, Da

AU - Lai, Linfei

PY - 2021/4

Y1 - 2021/4

N2 - The design of electrocatalysts with lower overpotential is of great significance for water splitting. Herein, cobalt hydroxide carbonate (CCH) has been used as a model to demonstrate the boost of its oxygen evolution reaction (OER) activity by atomic doping of W6+ (W-CCH). The 5 at % W doping reduced the OER overpotential of CCH by 95.3 mV at 15 mA cm−2, and increased the current density by 2.8 times at 1.65 V. 5%W-PCCH || 5%W-CCH-based electrolyzer only required a potential of 1.65 V to afford 10 mA cm−2 for full water splitting. The W6+ in CCH are active sites for O2– adsorption and induced an incesaed electron density near the Fermi level, which facilitates the charge transfer during electrocatalysis. The W6+ doping has been validated as an efficient booster for transition-metal carbonate hydroxides-based electrocatalysts, which has half or more than half-filled d-bands.

AB - The design of electrocatalysts with lower overpotential is of great significance for water splitting. Herein, cobalt hydroxide carbonate (CCH) has been used as a model to demonstrate the boost of its oxygen evolution reaction (OER) activity by atomic doping of W6+ (W-CCH). The 5 at % W doping reduced the OER overpotential of CCH by 95.3 mV at 15 mA cm−2, and increased the current density by 2.8 times at 1.65 V. 5%W-PCCH || 5%W-CCH-based electrolyzer only required a potential of 1.65 V to afford 10 mA cm−2 for full water splitting. The W6+ in CCH are active sites for O2– adsorption and induced an incesaed electron density near the Fermi level, which facilitates the charge transfer during electrocatalysis. The W6+ doping has been validated as an efficient booster for transition-metal carbonate hydroxides-based electrocatalysts, which has half or more than half-filled d-bands.

KW - Electrochemistry

KW - Heterometal doping

KW - Oxygen evolution reaction

KW - Water splitting

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U2 - 10.1016/j.jcis.2020.11.015

DO - 10.1016/j.jcis.2020.11.015

M3 - 文章

C2 - 33234311

AN - SCOPUS:85096560464

SN - 0021-9797

VL - 587

SP - 581

EP - 589

JO - Journal of Colloid and Interface Science

JF - Journal of Colloid and Interface Science

ER -

Atomic-level tungsten doping triggered low overpotential for electrocatalytic water splitting

Abstract

Keywords

UN SDGs

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