Titanate-based perovskites for photochemical and photoelectrochemical water splitting applications: A review

Research output: Contribution to journalReview article

9 Citations (Scopus)

Abstract

Recently, perovskites have been intensively studied for effective hydrogen production through photocatalytic water splitting reactions. The unique properties of perovskite materials are their tunable bandgap and high photocorrosion stability. Titanate-based perovskites are the most widely studied perovskites for activation under visible light and improvement in the hydrogen gas production rate by sunlight. Beneficial modifications were achieved through element doping, catalyst loading, heterojunction formation with other materials and surface modification. This review presents the progress over the last ten years in titanate perovskite modification and the increases achieved in the H2 production rate.

Original languageEnglish
Pages (from-to)23209-23220
Number of pages12
JournalInternational Journal of Hydrogen Energy
Volume43
Issue number52
DOIs
Publication statusPublished - 27 Dec 2018

Fingerprint

water splitting
perovskites
Perovskite
Hydrogen production
Chemical elements
Surface treatment
Heterojunctions
Water
Energy gap
Chemical activation
Doping (additives)
hydrogen production
sunlight
Hydrogen
Catalysts
heterojunctions
Gases
activation
catalysts
hydrogen

Keywords

  • Hydrogen production
  • Perovskite
  • Photocatalyst
  • Titanate
  • Water spitting

ASJC Scopus subject areas

  • Renewable Energy, Sustainability and the Environment
  • Fuel Technology
  • Condensed Matter Physics
  • Energy Engineering and Power Technology

Cite this

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title = "Titanate-based perovskites for photochemical and photoelectrochemical water splitting applications: A review",
abstract = "Recently, perovskites have been intensively studied for effective hydrogen production through photocatalytic water splitting reactions. The unique properties of perovskite materials are their tunable bandgap and high photocorrosion stability. Titanate-based perovskites are the most widely studied perovskites for activation under visible light and improvement in the hydrogen gas production rate by sunlight. Beneficial modifications were achieved through element doping, catalyst loading, heterojunction formation with other materials and surface modification. This review presents the progress over the last ten years in titanate perovskite modification and the increases achieved in the H2 production rate.",
keywords = "Hydrogen production, Perovskite, Photocatalyst, Titanate, Water spitting",
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T1 - Titanate-based perovskites for photochemical and photoelectrochemical water splitting applications

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AU - Bin Adnan, Muhamad Asri

AU - Khuzaimah, Arifin

AU - Effery Minggu, Lorna

AU - Kassim, Mohammad

PY - 2018/12/27

Y1 - 2018/12/27

N2 - Recently, perovskites have been intensively studied for effective hydrogen production through photocatalytic water splitting reactions. The unique properties of perovskite materials are their tunable bandgap and high photocorrosion stability. Titanate-based perovskites are the most widely studied perovskites for activation under visible light and improvement in the hydrogen gas production rate by sunlight. Beneficial modifications were achieved through element doping, catalyst loading, heterojunction formation with other materials and surface modification. This review presents the progress over the last ten years in titanate perovskite modification and the increases achieved in the H2 production rate.

AB - Recently, perovskites have been intensively studied for effective hydrogen production through photocatalytic water splitting reactions. The unique properties of perovskite materials are their tunable bandgap and high photocorrosion stability. Titanate-based perovskites are the most widely studied perovskites for activation under visible light and improvement in the hydrogen gas production rate by sunlight. Beneficial modifications were achieved through element doping, catalyst loading, heterojunction formation with other materials and surface modification. This review presents the progress over the last ten years in titanate perovskite modification and the increases achieved in the H2 production rate.

KW - Hydrogen production

KW - Perovskite

KW - Photocatalyst

KW - Titanate

KW - Water spitting

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