Facile synthesis and characterization of Chrysotile/SnO<sub>2</sub> nanocomposite for enhanced photocatalytic properties

Luo, Qianqian; Peng, Hongxia; Tian, Xiuying; Guo, Jun

doi:10.1002/aoc.5356

Cited by 3 publications

(1 citation statement)

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“…Fourth, the perspective of future work and research directions are mentioned. Chrysotile/SnO 2 A direct precipitation process coupled with calcination treatment MB 250 W 450 nm mercury lamp 99 [26] Chrysotile @ZnO Precipitation MB 250 W 365 nm mercury lamp 99.50 [27] TiO 2 /micro-meso porous silica nanofibers Sol-adhesion RhB 25 W 254 nm ultraviolet light 95 [28] Exfoliated kaolinite nanolayers Intercalation and delamination RhB 150 W 254 nm mercury lamp over 95 [29] g-C 3 N 4 /TiO 2 /kaolinite A mild sol-gel method associated with chemical stripping and self-assembly CIP and S. aureus 500 W over 400 nm xenon lamp and 8 W fluorescent lamp 92 [5] N-doped TiO 2 /kaolinite A modified two-step sol-gel method CR 8 W lamp 99 [30] Ti-Fe kaolinite composite A simple precipitation method Cr(VI) 300 W over 420 nm dysprosium lamp 87 at PH = 3.0 [31] Ag/g-C 3 N 4 /kaolinite A two-step assembly strategy by employing in situ impregnation-calcination and photo-deposition process IBP 500 W over 400 nm xenon lamp 99.90 [32] Kaolinite/TiO 2 Sol-gel method MB 8 W 254 nm high-intensity UV-C radiation lamp 97 [33] Mica/TiO…”

Section: Introductionmentioning

confidence: 99%

Mineral-Supported Photocatalysts: A Review of Materials, Mechanisms and Environmental Applications

Simon

Bekheet

et al. 2022

Energies

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Although they are of significant importance for environmental applications, the industrialization of photocatalytic techniques still faces many difficulties, and the most urgent concern is cost control. Natural minerals possess abundant chemical inertia and cost-efficiency, which is suitable for hybridizing with various effective photocatalysts. The use of natural minerals in photocatalytic systems can not only significantly decrease the pure photocatalyst dosage but can also produce a favorable synergistic effect between photocatalyst and mineral substrate. This review article discusses the current progress regarding the use of various mineral classes in photocatalytic applications. Owing to their unique structures, large surface area, and negatively charged surface, silicate minerals could enhance the adsorption capacity, reduce particle aggregation, and promote photogenerated electron-hole pair separation for hybrid photocatalysts. Moreover, controlling the morphology and structure properties of these materials could have a great influence on their light-harvesting ability and photocatalytic activity. Composed of silica and alumina or magnesia, some silicate minerals possess unique orderly organized porous or layered structures, which are proper templates to modify the photocatalyst framework. The non-silicate minerals (referred to carbonate and carbon-based minerals, sulfate, and sulfide minerals and other special minerals) can function not only as catalyst supports but also as photocatalysts after special modification due to their unique chemical formula and impurities. The dye-sensitized minerals, as another natural mineral application in photocatalysis, are proved to be superior photocatalysts for hydrogen evolution and wastewater treatment. This work aims to provide a complete research overview of the mineral-supported photocatalysts and summarizes the common synergistic effects between different mineral substrates and photocatalysts as well as to inspire more possibilities for natural mineral application in photocatalysis.

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Section: Introductionmentioning

confidence: 99%

Mineral-Supported Photocatalysts: A Review of Materials, Mechanisms and Environmental Applications

Simon

Bekheet

et al. 2022

Energies

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Nanosized tubular clay minerals as inorganic nanoreactors for energy and environmental applications: A review to fill current knowledge gaps

Naciri,

Ghazzal,

Paineau

2024

Advances in Colloid and Interface Science

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Steering oxygen vacancies for the enhanced photocatalytic degradations of dyes and tetracycline over Cu, Yb co-doped SnO2 with efficient charge separation and transfer

Liang

Zhou

et al. 2022

Journal of the Taiwan Institute of Chemical Engineers

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Facile synthesis and characterization of Chrysotile/SnO₂ nanocomposite for enhanced photocatalytic properties

Cited by 3 publications

References 20 publications

Mineral-Supported Photocatalysts: A Review of Materials, Mechanisms and Environmental Applications

Mineral-Supported Photocatalysts: A Review of Materials, Mechanisms and Environmental Applications

Nanosized tubular clay minerals as inorganic nanoreactors for energy and environmental applications: A review to fill current knowledge gaps

Steering oxygen vacancies for the enhanced photocatalytic degradations of dyes and tetracycline over Cu, Yb co-doped SnO2 with efficient charge separation and transfer

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Facile synthesis and characterization of Chrysotile/SnO2 nanocomposite for enhanced photocatalytic properties

Cited by 3 publications

References 20 publications

Mineral-Supported Photocatalysts: A Review of Materials, Mechanisms and Environmental Applications

Mineral-Supported Photocatalysts: A Review of Materials, Mechanisms and Environmental Applications

Nanosized tubular clay minerals as inorganic nanoreactors for energy and environmental applications: A review to fill current knowledge gaps

Steering oxygen vacancies for the enhanced photocatalytic degradations of dyes and tetracycline over Cu, Yb co-doped SnO2 with efficient charge separation and transfer

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Product

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Facile synthesis and characterization of Chrysotile/SnO₂ nanocomposite for enhanced photocatalytic properties