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In Situ Growth of CuBi2O4/Bi2O3 Z‑Scheme Heterostructures for Bifunctional Photocatalytic Applications
- Authors
- Mondal, Sneha; Patra, Lokanath; Ilanchezhiyan, Pugazhendi; Neppolian, Bernaurdshaw; Pandey, Ravindra; Ganesh, Vattikondala
- Issue Date
- Jun-2024
- Publisher
- American Chemical Society
- Keywords
- Hydrogen; Catalysts; Charge Transfer; Copper Compounds; Density Functional Theory; Hydrogen Production; Organic Pollutants; Rhodium Compounds; Bi-functional; Characterization Techniques; Composite Catalysts; H 2 Production; In-situ Growth; Photocatalytic Application; Solvothermal Approach; Uv-vis-drs; Xrd; Bismuth Compounds; Hydrogen; Article; Catalyst; Controlled Study; Degradation; Density Functional Theory; Illumination; Light Emitting Diode; Photocatalysis; Sunlight; Transmission Electron Microscope; Ultraviolet Radiation
- Citation
- Langmuir, v.40, no.25, pp 12954 - 12966
- Pages
- 13
- Indexed
- SCIE
SCOPUS
- Journal Title
- Langmuir
- Volume
- 40
- Number
- 25
- Start Page
- 12954
- End Page
- 12966
- ISSN
- 0743-7463
1520-5827
- Abstract
- In this study, we present an in situ solvothermal approach for synthesizing a highly efficient bifunctional CuBi2O4/Bi2O3 composite catalyst for applications in H-2 production and the removal of organic pollutants. Various characterization techniques, including XRD, UV-vis DRS, SEM, TEM, and EIS, were used to characterize the prepared catalyst. Density functional theory calculations confirmed a Z-scheme mechanism, revealing the charge transfer mechanism from the Bi2O3 surface to the CuBi2O4 surface. The composite exhibited a photocurrent of 2.83 x 10(4) A/cm(2) and a hydrogen production rate of 526 mu molg(-1)h(-1) under natural sunlight. Moreover, the catalyst demonstrated efficient degradation of RhB up to 58% in 120 min under 50 W LED illumination. Additionally, multiple recycling tests confirmed its high stability and recyclability, making it a promising candidate for various applications in the field of photocatalysis.
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