A bibliometric examination and state-of-the-art overview of hydrogen generation from photoelectrochemical water splitting

Renewable energies can reduce emissions from fossil fuel-based power production by a significant amount, reducing climate change. Among the several options being investigated, hydrogen is now recognized as one of the primary enabling technologies for future large-scale and long-term green storage of...

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Published inInternational journal of hydrogen energy Vol. 52; pp. 358 - 380
Main Authors Nabgan, Walid, Nabgan, Bahador, Jalil, Aishah Abdul, Ikram, Muhammad, Hussain, Ijaz, Bahari, Mahadi B., Tran, T.V., Alhassan, Mansur, Owgi, A.H.K., Parashuram, L., Nordin, Abu Hassan, Medina, Francisco
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 02.01.2024
Subjects
Bibliometric
Hydrogen
PEC
Review
Systematic
Review
Bibliometric
Systematic
Hydrogen
PEC
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Abstract Renewable energies can reduce emissions from fossil fuel-based power production by a significant amount, reducing climate change. Among the several options being investigated, hydrogen is now recognized as one of the primary enabling technologies for future large-scale and long-term green storage of renewable energy. However, using clean and renewable energy sources like water and sunlight is the best option. According to recent studies, photoelectrochemical (PEC) water splitting is a potential technology for creating hydrogen using free solar energy since hydrogen and oxygen gases may be easily identified in PEC. This study uses bibliometric and systematic literature review methodologies to examine the scientific understanding of PEC water splitting and hydrogen generation, evaluating 936 articles issued in the Web of Science database from 1970 to 2022. The authors looked at how PEC water splitting research has developed compared to prior research, what criteria make up practical approaches, and what subjects have emerged as new trends in reacting to changing situations. The key findings from the article analysis, future research potential, and practical implications for the field are discussed. [Display omitted] •A bibliometric analysis of photoelectrochemical and hydrogen production is conducted.•Web of Science database from 1970 to 2022 was used in this review.•The key findings from the article analysis are discussed.•Future research potential and practical implications for the field of study are explored.
AbstractList Renewable energies can reduce emissions from fossil fuel-based power production by a significant amount, reducing climate change. Among the several options being investigated, hydrogen is now recognized as one of the primary enabling technologies for future large-scale and long-term green storage of renewable energy. However, using clean and renewable energy sources like water and sunlight is the best option. According to recent studies, photoelectrochemical (PEC) water splitting is a potential technology for creating hydrogen using free solar energy since hydrogen and oxygen gases may be easily identified in PEC. This study uses bibliometric and systematic literature review methodologies to examine the scientific understanding of PEC water splitting and hydrogen generation, evaluating 936 articles issued in the Web of Science database from 1970 to 2022. The authors looked at how PEC water splitting research has developed compared to prior research, what criteria make up practical approaches, and what subjects have emerged as new trends in reacting to changing situations. The key findings from the article analysis, future research potential, and practical implications for the field are discussed. [Display omitted] •A bibliometric analysis of photoelectrochemical and hydrogen production is conducted.•Web of Science database from 1970 to 2022 was used in this review.•The key findings from the article analysis are discussed.•Future research potential and practical implications for the field of study are explored.
Author Tran, T.V.
Hussain, Ijaz
Bahari, Mahadi B.
Medina, Francisco
Alhassan, Mansur
Ikram, Muhammad
Nordin, Abu Hassan
Jalil, Aishah Abdul
Parashuram, L.
Owgi, A.H.K.
Nabgan, Bahador
Nabgan, Walid
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  givenname: Bahador
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  givenname: Aishah Abdul
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  givenname: Muhammad
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  surname: Ikram
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  givenname: Mahadi B.
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  surname: Tran
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  orcidid: 0000-0003-3117-7928
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  surname: Owgi
  fullname: Owgi, A.H.K.
  organization: Faculty of Chemical and Energy Engineering, Universiti Teknologi Malaysia, 81310, Skudai, Johor, Malaysia
– sequence: 10
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  surname: Parashuram
  fullname: Parashuram, L.
  organization: Department of Chemistry, Nitte Meenakshi Institute of Technology, Yelahanka, Bangalore, 560064, India
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  givenname: Abu Hassan
  orcidid: 0000-0001-7546-3833
  surname: Nordin
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  givenname: Francisco
  surname: Medina
  fullname: Medina, Francisco
  email: francesc.medina@urv.cat
  organization: Department d’Enginyeria Química, Universitat Rovira i Virgili, Av Països Catalans 26, 43007, Tarragona, Spain
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Snippet Renewable energies can reduce emissions from fossil fuel-based power production by a significant amount, reducing climate change. Among the several options...
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Title A bibliometric examination and state-of-the-art overview of hydrogen generation from photoelectrochemical water splitting
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