Recent advances in transition metals- based materials as electrocatalysts for water splitting

There has been a significant amount of interest in developing productive solutions for clean and sustainable hydrogen energy, and one of the most promising strategies involves the electrolysis of water to produce hydrogen. While Pt-group metals are currently the most efficient electrocatalysts for t...

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Published inInternational journal of electrochemical science Vol. 18; no. 7; p. 100187
Main Authors Kamaruzaman, Nur Ayunie, Wan Mohamed Zin, Wan Mohd Khairul, Kamarudin, Khadijah Hilmun, Saleh, Noorashikin Md, Yusoff, Farhanini
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.07.2023
Subjects
Electrocatalyst
Electrochemical water splitting
Electrochemistry
Hydrogen evolution reaction
Transition metal compounds
Electrochemistry
Hydrogen evolution reaction
Electrochemical water splitting
Electrocatalyst
Transition metal compounds
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Abstract There has been a significant amount of interest in developing productive solutions for clean and sustainable hydrogen energy, and one of the most promising strategies involves the electrolysis of water to produce hydrogen. While Pt-group metals are currently the most efficient electrocatalysts for the hydrogen evolution reaction (HER) due to their low overpotential to produce high cathodic current densities, their widespread use is greatly constrained by their high price and unavailability. Recent investigations into transition metal compounds as HER catalysts have shown promise, but creating highly active catalysts based on inexpensive and readily available materials has proven to be a difficult task. Researchers have recently been intrigued by noteworthy breakthroughs involving 2D heterostructure transition metals electrocatalysts with a low overpotential towards HER, which are reviewed in this feature article, along with the performance of electrocatalysts for HER on transition metal compounds over the previous few years, elemental doping, defect engineering, and some significant issues and difficulties in the study of HER. [Display omitted]
AbstractList There has been a significant amount of interest in developing productive solutions for clean and sustainable hydrogen energy, and one of the most promising strategies involves the electrolysis of water to produce hydrogen. While Pt-group metals are currently the most efficient electrocatalysts for the hydrogen evolution reaction (HER) due to their low overpotential to produce high cathodic current densities, their widespread use is greatly constrained by their high price and unavailability. Recent investigations into transition metal compounds as HER catalysts have shown promise, but creating highly active catalysts based on inexpensive and readily available materials has proven to be a difficult task. Researchers have recently been intrigued by noteworthy breakthroughs involving 2D heterostructure transition metals electrocatalysts with a low overpotential towards HER, which are reviewed in this feature article, along with the performance of electrocatalysts for HER on transition metal compounds over the previous few years, elemental doping, defect engineering, and some significant issues and difficulties in the study of HER. [Display omitted]
ArticleNumber 100187
Author Kamarudin, Khadijah Hilmun
Wan Mohamed Zin, Wan Mohd Khairul
Saleh, Noorashikin Md
Yusoff, Farhanini
Kamaruzaman, Nur Ayunie
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  givenname: Wan Mohd Khairul
  surname: Wan Mohamed Zin
  fullname: Wan Mohamed Zin, Wan Mohd Khairul
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  givenname: Khadijah Hilmun
  surname: Kamarudin
  fullname: Kamarudin, Khadijah Hilmun
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  givenname: Noorashikin Md
  surname: Saleh
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  givenname: Farhanini
  surname: Yusoff
  fullname: Yusoff, Farhanini
  email: farhanini@umt.edu.my
  organization: Faculty of Science and Marine Environment, Universiti Malaysia Terengganu, 21030 Kuala Terengganu, Malaysia
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Hydrogen evolution reaction
Electrochemical water splitting
Electrocatalyst
Transition metal compounds
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Snippet There has been a significant amount of interest in developing productive solutions for clean and sustainable hydrogen energy, and one of the most promising...
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StartPage 100187
SubjectTerms Electrocatalyst
Electrochemical water splitting
Electrochemistry
Hydrogen evolution reaction
Transition metal compounds
Title Recent advances in transition metals- based materials as electrocatalysts for water splitting
URI https://dx.doi.org/10.1016/j.ijoes.2023.100187
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