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Ag(0)/Au(0) nanocluster loaded Bi(2)O(4) photocatalyst for methyl orange dye photodegradation
Visible-light-sensitive Ag and Au nanocluster loaded Bi(2)O(4) (Ag–Bi(2)O(4) and Au–Bi(2)O(4)) semiconductor photocatalysts have been synthesized. The composite materials exhibited increased photocatalytic degradation of the azo-dye pollutant, Methyl Orange (MO). In addition, Au–Bi(2)O(4) (Au-7% wt)...
Autores principales: | , , , , , , |
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Formato: | Online Artículo Texto |
Lenguaje: | English |
Publicado: |
The Royal Society of Chemistry
2021
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Materias: | |
Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9037362/ https://www.ncbi.nlm.nih.gov/pubmed/35479999 http://dx.doi.org/10.1039/d1ra03278j |
Sumario: | Visible-light-sensitive Ag and Au nanocluster loaded Bi(2)O(4) (Ag–Bi(2)O(4) and Au–Bi(2)O(4)) semiconductor photocatalysts have been synthesized. The composite materials exhibited increased photocatalytic degradation of the azo-dye pollutant, Methyl Orange (MO). In addition, Au–Bi(2)O(4) (Au-7% wt) showed the highest MO degradation rate (0.05904 min(−1)) i.e. 7.69 times higher than the pristine Bi(2)O(4) and 1.4 times higher than 1% Ag–Bi(2)O(4). The optical properties of the composites showed that the band gaps of the composite samples 1% Ag–Bi(2)O(4) and 7% Au–Bi(2)O(4) were 1.96 eV and 2.09 eV, respectively. The increase in the degradation rate is attributed to the decrease of the recombination rate of photoinduced e(−)/h(+), caused by the enhanced charge transfer between the metal nanoparticles and Bi(2)O(4) as confirmed in the photocurrent measurements. The photocurrent measurements showed increase in the transients output by 8.25 times and 2.75 times for 1% Ag–Bi(2)O(4) & 3% Au–Bi(2)O(4), respectively as compared to that of the pristine Bi(2)O(4). These features further aided the increase in the photocatalytic efficiency while retaining the original physical properties, thus showing the robustness of Bi(2)O(4) as a photocatalyst. |
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