Photocatalytic activity of colloidal Bi–Si-based nanoparticles prepared by laser synthesis in liquid

Photocatalytic activity of colloidal Bi–Si-based nanoparticles prepared by laser synthesis in liquid

A combination of laser ablation and laser irradiation by focused laser beam in liquid is used to prepare the Bi- and Si-based nanocolloids in water in a Bi:Si molar ratio of 12:1. The composition, structure, morphology, and optical properties of the obtained nanostructures are studied. The synthesiz...

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Bibliographic Details
Published in:Materials chemistry and physics Vol. 314; p. 128800
Main Authors: Golubovskaya, Alexandra G., Goncharova, Daria A., Fakhrutdinova, Elena D., Kharlamova, Tamara S., Vodyankina, Olga V., Svetlichnyi, Valery A.
Format: Journal Article
Language:English
Published: Elsevier B.V 15-02-2024
Subjects:
5-(hydroxymethyl)furfural
Bismutite Bi2(CO3)O2
Bi–Si-based colloid nanostructures
Laser synthesis in liquid
Phenol
Photocatalysis
Rhodamine B
Sillenite Bi12SiO20
Phenol
Bi–Si-based colloid nanostructures
Bismutite Bi2(CO3)O2
Sillenite Bi12SiO20
Photocatalysis
5-(hydroxymethyl)furfural
Laser synthesis in liquid
Rhodamine B
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Summary:A combination of laser ablation and laser irradiation by focused laser beam in liquid is used to prepare the Bi- and Si-based nanocolloids in water in a Bi:Si molar ratio of 12:1. The composition, structure, morphology, and optical properties of the obtained nanostructures are studied. The synthesized composite nanostructures are shown to consist mainly of bismuth oxycarbonate Bi2(CO3)O2 and bismuth silicate Bi12SiO20. The materials are tested in the decomposition of the model dye rhodamine B, including the stability of the catalyst and the opportunity of its regeneration by laser irradiation as well as in phenol decomposition when excited by LED with a wavelength of 375 nm. The opportunity to use the Bi–Si-based colloidal nanostructures for the selective photooxidation of 5-(hydroxymethyl)furfural is considered. •“Green” laser synthesis is used to prepare the Bi- and Si-based nanocolloids in water.•No additional treatment of the Bi–Si colloid including drying and calcination is applied.•Colloid mainly consists of bismuth oxycarbonate Bi2(CO3)O2 and bismuth silicate Bi12SiO20.•Colloid decomposes phenol and RhB under photocatalytic conditions by LED with a wavelength of 375 nm.•Room-temperature selective photooxidation of 5-HMF over Bi–Si colloid is shown.
ISSN:0254-0584
1879-3312
DOI:10.1016/j.matchemphys.2023.128800