Visible light driven CuBi2O4 heterostructures and their enhanced photocatalytic activity for pollutant degradation: A review

The existence of organic, inorganic, and microbiological contaminants in water bodies continues to pose a serious threat to public health worldwide. The photocatalytic elimination of these contaminants using copper bismuthate (CuBi2O4) heterostructures has been the subject of numerous studies. CuBi2...

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Published inJournal of water process engineering Vol. 66; p. 105890
Main Authors Olatunde, Olalekan C., Sawunyama, Lawrence, Yusuf, Tunde L., Onwudiwe, Damian C.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.09.2024
Subjects
CuBi2O4 heterostructures
Mechanism
Photocatalytic degradation
Synthetic methods
Photocatalytic degradation
Synthetic methods
CuBi2O4 heterostructures
Mechanism
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Abstract The existence of organic, inorganic, and microbiological contaminants in water bodies continues to pose a serious threat to public health worldwide. The photocatalytic elimination of these contaminants using copper bismuthate (CuBi2O4) heterostructures has been the subject of numerous studies. CuBi2O4 heterostructures have demonstrated their effectiveness as a photocatalyst because of their longer charge carrier lifespan, enhanced capacity to absorb solar light, and greater charge carrier separation. The various techniques for fabricating CuBi2O4 heterostructures such as hydrothermal, sol-gel, solid state, solvothermal, electrospinning, spray pyrolysis, and electrodeposition are extensively discussed in this review paper. A wide range of CuBi2O4 heterostructures and their different mechanisms of action are also covered. The photocatalytic degradation of pollutants by copper bismuthate (CuBi2O4) heterostructures is also presented in detail. Furthermore, a thorough critical discussion is included about the prospects and difficulties of using CuBi2O4 heterostructures for the photocatalytic purification of wastewater. [Display omitted] •Water pollution remains a critical global issue requiring urgent action.•Semiconductor-based photocatalytic processes offer a suitable technique for wastewater treatment.•CuBi2O4, a new semiconductor, shows great promise as a photocatalyst due to its distinct electronic and optical traits•Creating heterojunctions with other semiconductors can boost CuBi2O4's photocatalytic efficiency.•The charge transfer mechanism in the heterostructures can follow either, the Z-scheme, S-scheme, or type II mechanism.
AbstractList The existence of organic, inorganic, and microbiological contaminants in water bodies continues to pose a serious threat to public health worldwide. The photocatalytic elimination of these contaminants using copper bismuthate (CuBi2O4) heterostructures has been the subject of numerous studies. CuBi2O4 heterostructures have demonstrated their effectiveness as a photocatalyst because of their longer charge carrier lifespan, enhanced capacity to absorb solar light, and greater charge carrier separation. The various techniques for fabricating CuBi2O4 heterostructures such as hydrothermal, sol-gel, solid state, solvothermal, electrospinning, spray pyrolysis, and electrodeposition are extensively discussed in this review paper. A wide range of CuBi2O4 heterostructures and their different mechanisms of action are also covered. The photocatalytic degradation of pollutants by copper bismuthate (CuBi2O4) heterostructures is also presented in detail. Furthermore, a thorough critical discussion is included about the prospects and difficulties of using CuBi2O4 heterostructures for the photocatalytic purification of wastewater. [Display omitted] •Water pollution remains a critical global issue requiring urgent action.•Semiconductor-based photocatalytic processes offer a suitable technique for wastewater treatment.•CuBi2O4, a new semiconductor, shows great promise as a photocatalyst due to its distinct electronic and optical traits•Creating heterojunctions with other semiconductors can boost CuBi2O4's photocatalytic efficiency.•The charge transfer mechanism in the heterostructures can follow either, the Z-scheme, S-scheme, or type II mechanism.
ArticleNumber 105890
Author Onwudiwe, Damian C.
Olatunde, Olalekan C.
Sawunyama, Lawrence
Yusuf, Tunde L.
Author_xml – sequence: 1
  givenname: Olalekan C.
  surname: Olatunde
  fullname: Olatunde, Olalekan C.
  email: 32587139@mynwu.ac.za
  organization: Materials Science Innovation and Modelling (MaSIM) Research Focus Area, Faculty of Natural and Agricultural Sciences, North-West University, Mafikeng Campus, Private Bag X2046, Mmabatho 2735, South Africa
– sequence: 2
  givenname: Lawrence
  surname: Sawunyama
  fullname: Sawunyama, Lawrence
  organization: Materials Science Innovation and Modelling (MaSIM) Research Focus Area, Faculty of Natural and Agricultural Sciences, North-West University, Mafikeng Campus, Private Bag X2046, Mmabatho 2735, South Africa
– sequence: 3
  givenname: Tunde L.
  surname: Yusuf
  fullname: Yusuf, Tunde L.
  organization: Department of Chemistry, Faculty of Natural and Agricultural Sciences, University of Pretoria, Private Bag X20, Hatfield 0028, Pretoria, South Africa
– sequence: 4
  givenname: Damian C.
  surname: Onwudiwe
  fullname: Onwudiwe, Damian C.
  email: Damian.Onwudiwe@nwu.ac.za
  organization: Materials Science Innovation and Modelling (MaSIM) Research Focus Area, Faculty of Natural and Agricultural Sciences, North-West University, Mafikeng Campus, Private Bag X2046, Mmabatho 2735, South Africa
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Keywords Photocatalytic degradation
Synthetic methods
CuBi2O4 heterostructures
Mechanism
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Snippet The existence of organic, inorganic, and microbiological contaminants in water bodies continues to pose a serious threat to public health worldwide. The...
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SubjectTerms CuBi2O4 heterostructures
Mechanism
Photocatalytic degradation
Synthetic methods
Title Visible light driven CuBi2O4 heterostructures and their enhanced photocatalytic activity for pollutant degradation: A review
URI https://dx.doi.org/10.1016/j.jwpe.2024.105890
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