One-pot hydrothermal synthesis of Bi2O2CO3/Bi2WO6 visible light photocatalyst with enhanced photocatalytic activity
The hybrid nanostructure is formed during the simultaneous growth of both Bi2WO6 and Bi2O2CO3, namely via one-pot synthetic route. The Bi2O2CO3/Bi2WO6 composite exhibits higher photocatalytic activity than single phase Bi2O2CO3 or Bi2WO6 for rhodamine B degradation under simulated sunlight irradiati...
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Published in | Applied surface science Vol. 284; pp. 843 - 848 |
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Main Authors | , |
Format | Journal Article |
Language | English |
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Amsterdam
Elsevier B.V
01.11.2013
Elsevier |
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Abstract | The hybrid nanostructure is formed during the simultaneous growth of both Bi2WO6 and Bi2O2CO3, namely via one-pot synthetic route. The Bi2O2CO3/Bi2WO6 composite exhibits higher photocatalytic activity than single phase Bi2O2CO3 or Bi2WO6 for rhodamine B degradation under simulated sunlight irradiation.
•One-pot hydrothermal synthesis of Bi2O2CO3/Bi2WO6 composite photocatalyst.•The assembly of Bi2O2CO3 and Bi2WO6 nanosheets forms a hybrid nanostructure.•The Bi2O2CO3/Bi2WO6 composite exhibits higher photocatalytic activity than single phase Bi2O2CO3 or Bi2WO6 for degradation of rhodamine B under simulated sunlight irradiation.
A novel Bi2O2CO3/Bi2WO6 composite photocatalyst is synthesized via a one-pot hydrothermal route. The as-prepared composite is assembled by many Bi2O2CO3 and Bi2WO6 nanosheets, forming a unique hybrid nanostructure. The investigation on the degradation of Rhodamine B (RhB) under the Xe light illumination reveals that the Bi2O2CO3/Bi2WO6 composite exhibits higher photocatalytic activity than single phase Bi2O2CO3 or Bi2WO6. The enhanced photocatalytic performance can be attributed to the improved light absorption ability and the reduced recombination of photoexcited electrons and holes during photocatalytic reactions. Moreover, a possible reaction pathway of the Bi2O2CO3/Bi2WO6 composite is proposed. The one-pot hydrothermal method developed in this study provides an example of simultaneous synthesis of two Bi-containing Aurivillius-related phases with enhanced photocatalytic activity. |
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AbstractList | A novel Bi2O2CO3/Bi2WO6 composite photocatalyst is synthesized via a one-pot hydrothermal route. The as-prepared composite is assembled by many Bi2O2CO3 and Bi2WO6 nanosheets, forming a unique hybrid nanostructure. The investigation on the degradation of Rhodamine B (RhB) under the Xe light illumination reveals that the Bi2O2CO3/Bi2WO6 composite exhibits higher photocatalytic activity than single phase Bi2O2CO3 or Bi2WO6. The enhanced photocatalytic performance can be attributed to the improved light absorption ability and the reduced recombination of photoexcited electrons and holes during photocatalytic reactions. Moreover, a possible reaction pathway of the Bi2O2CO3/Bi2WO6 composite is proposed. The one-pot hydrothermal method developed in this study provides an example of simultaneous synthesis of two Bi-containing Aurivillius-related phases with enhanced photocatalytic activity. The hybrid nanostructure is formed during the simultaneous growth of both Bi2WO6 and Bi2O2CO3, namely via one-pot synthetic route. The Bi2O2CO3/Bi2WO6 composite exhibits higher photocatalytic activity than single phase Bi2O2CO3 or Bi2WO6 for rhodamine B degradation under simulated sunlight irradiation. •One-pot hydrothermal synthesis of Bi2O2CO3/Bi2WO6 composite photocatalyst.•The assembly of Bi2O2CO3 and Bi2WO6 nanosheets forms a hybrid nanostructure.•The Bi2O2CO3/Bi2WO6 composite exhibits higher photocatalytic activity than single phase Bi2O2CO3 or Bi2WO6 for degradation of rhodamine B under simulated sunlight irradiation. A novel Bi2O2CO3/Bi2WO6 composite photocatalyst is synthesized via a one-pot hydrothermal route. The as-prepared composite is assembled by many Bi2O2CO3 and Bi2WO6 nanosheets, forming a unique hybrid nanostructure. The investigation on the degradation of Rhodamine B (RhB) under the Xe light illumination reveals that the Bi2O2CO3/Bi2WO6 composite exhibits higher photocatalytic activity than single phase Bi2O2CO3 or Bi2WO6. The enhanced photocatalytic performance can be attributed to the improved light absorption ability and the reduced recombination of photoexcited electrons and holes during photocatalytic reactions. Moreover, a possible reaction pathway of the Bi2O2CO3/Bi2WO6 composite is proposed. The one-pot hydrothermal method developed in this study provides an example of simultaneous synthesis of two Bi-containing Aurivillius-related phases with enhanced photocatalytic activity. |
Author | Chen, Hongfeng Huang, Xinwen |
Author_xml | – sequence: 1 givenname: Xinwen surname: Huang fullname: Huang, Xinwen email: msechem@gmail.com organization: College of Biological and Environmental Engineering, Zhejiang University of Technology, Hangzhou 310014, China – sequence: 2 givenname: Hongfeng surname: Chen fullname: Chen, Hongfeng organization: College of Chemical Engineering and Materials Science, Zhejiang University of Technology, Hangzhou 310014, China |
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Keywords | Hybrid nanostructure Bi2WO6 Hydrothermal Bi2O2CO3 Photocatalysis Hydrothermal synthesis Bi WO Nanostructures CO O |
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Snippet | The hybrid nanostructure is formed during the simultaneous growth of both Bi2WO6 and Bi2O2CO3, namely via one-pot synthetic route. The Bi2O2CO3/Bi2WO6... A novel Bi2O2CO3/Bi2WO6 composite photocatalyst is synthesized via a one-pot hydrothermal route. The as-prepared composite is assembled by many Bi2O2CO3 and... |
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SubjectTerms | Bi2O2CO3 Bi2WO6 Condensed matter: electronic structure, electrical, magnetic, and optical properties Condensed matter: structure, mechanical and thermal properties Cross-disciplinary physics: materials science; rheology Exact sciences and technology Forming Hybrid nanostructure Hydrothermal Illumination Light absorption Nanostructure Pathways Photocatalysis Physics Surface chemistry Synthesis |
Title | One-pot hydrothermal synthesis of Bi2O2CO3/Bi2WO6 visible light photocatalyst with enhanced photocatalytic activity |
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