Enhanced UV and visible light photocatalytic properties of synthesized AgBr/SnO2 composites

Enhanced UV and visible light photocatalytic properties of synthesized AgBr/SnO2 composites

[Display omitted] •Facile synthesis of AgBr/SnO2 composites.•Rhodamine B and Caffeic acid were used as target pollutants.•Extraordinary UV–visible light photocatalytic properties of coupled AgBr/SnO2.•Positive photocatalytic properties of AgBr/SnO2 in respect to their parental components. Composites...

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Published in:Separation and purification technology Vol. 257; p. 117948
Main Authors: Puga, F., Navío, J.A., Hidalgo, M.C.
Format: Journal Article
Language:English
Published: Elsevier B.V 15-02-2021
Subjects:
AgBr
Caffeic acid
Dyes
Photocatalysis
Tin oxide
AgBr
Dyes
Tin oxide
Photocatalysis
Caffeic acid
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Abstract [Display omitted] •Facile synthesis of AgBr/SnO2 composites.•Rhodamine B and Caffeic acid were used as target pollutants.•Extraordinary UV–visible light photocatalytic properties of coupled AgBr/SnO2.•Positive photocatalytic properties of AgBr/SnO2 in respect to their parental components. Composites (AgBr/SnO2) comprised of AgBr and SnO2 with different molar % of bare SnO2, have been synthesized by simple precipitation methods; the bare SnO2 used, was synthesized by hydrothermal procedure. Samples have been characterized by X-ray diffraction (XRD), N2-adsorption, UV–vis diffuse reflectance spectroscopy (DRS), scanning electron microscopy (SEM), Transmission electron microscopy (TEM) and X-ray photoelectron spectroscopy (XPS). Photocatalytic activity of the as-prepared photocatalysts was evaluated through photocatalytic degradation of rhodamine B (RhB) and caffeic acid (CAFA) under UV and Visible illumination. In photocatalytic degradation studies, for both substrates, conversion rates of around 95% were found in 45 min of both UV-illumination and 85% under visible lighting. These conversion rates were superior than the conversion rates of pure parental components, AgBr and SnO2 under the same experimental conditions. At least, for RhB no loss of photocatalytic activity has been observed after five recycles although the mineralization degree progressively diminished along the recycles. The enhanced photocatalytic degradation of AgBr/SnO2 compounds was attributed, in part, to a synergistic increase in adsorption viability, as well as to the effective separation of photoinduced load carriers that resulted from the formation of a heterojunction according to the type II junction. Radical scavengers’ experiments indicated that active oxidant species as O2.−, ·OH and h+ all are involved in this photocatalytic system, although it seems that O2.− played the major role in the photocatalytic degrading of RhB by AgBr/SnO2 composites. In summary, coupling AgBr with SnO2 remarkably improves the photocatalytic activity under both UV and visible-illumination with respect to the parental components. These features open the route to future applications of this material in the field of environmental remediation.
AbstractList [Display omitted] •Facile synthesis of AgBr/SnO2 composites.•Rhodamine B and Caffeic acid were used as target pollutants.•Extraordinary UV–visible light photocatalytic properties of coupled AgBr/SnO2.•Positive photocatalytic properties of AgBr/SnO2 in respect to their parental components. Composites (AgBr/SnO2) comprised of AgBr and SnO2 with different molar % of bare SnO2, have been synthesized by simple precipitation methods; the bare SnO2 used, was synthesized by hydrothermal procedure. Samples have been characterized by X-ray diffraction (XRD), N2-adsorption, UV–vis diffuse reflectance spectroscopy (DRS), scanning electron microscopy (SEM), Transmission electron microscopy (TEM) and X-ray photoelectron spectroscopy (XPS). Photocatalytic activity of the as-prepared photocatalysts was evaluated through photocatalytic degradation of rhodamine B (RhB) and caffeic acid (CAFA) under UV and Visible illumination. In photocatalytic degradation studies, for both substrates, conversion rates of around 95% were found in 45 min of both UV-illumination and 85% under visible lighting. These conversion rates were superior than the conversion rates of pure parental components, AgBr and SnO2 under the same experimental conditions. At least, for RhB no loss of photocatalytic activity has been observed after five recycles although the mineralization degree progressively diminished along the recycles. The enhanced photocatalytic degradation of AgBr/SnO2 compounds was attributed, in part, to a synergistic increase in adsorption viability, as well as to the effective separation of photoinduced load carriers that resulted from the formation of a heterojunction according to the type II junction. Radical scavengers’ experiments indicated that active oxidant species as O2.−, ·OH and h+ all are involved in this photocatalytic system, although it seems that O2.− played the major role in the photocatalytic degrading of RhB by AgBr/SnO2 composites. In summary, coupling AgBr with SnO2 remarkably improves the photocatalytic activity under both UV and visible-illumination with respect to the parental components. These features open the route to future applications of this material in the field of environmental remediation.
ArticleNumber 117948
Author Navío, J.A.
Hidalgo, M.C.
Puga, F.
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Dyes
Tin oxide
Photocatalysis
Caffeic acid
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Snippet [Display omitted] •Facile synthesis of AgBr/SnO2 composites.•Rhodamine B and Caffeic acid were used as target pollutants.•Extraordinary UV–visible light...
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StartPage 117948
SubjectTerms AgBr
Caffeic acid
Dyes
Photocatalysis
Tin oxide
Title Enhanced UV and visible light photocatalytic properties of synthesized AgBr/SnO2 composites
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