Wei-Tse Huang scite author profile

Wei-Tse Huang

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17Citation Statements Given

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In situ precipitation 3D printing of highly ordered silver cluster–silver chloride photocatalysts

Chen¹,

Huang²,

Lee³

et al. 2023

Int J Adv Manuf Technol

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In this study, a silver atomic cluster(Ag@)/silver chloride photocatalyst structure with high porosity and a highly ordered interconnected three-dimensional (3D) porous network was prepared through a novel insitu-precipitation 3D printing technique. Photocatalytic dye degradation and the sterilization of Escherichia coli under irradiation with visible light and ultraviolet light revealed that the photocatalyst structure had a strong degradation effect on the aqueous solutions of Orange II azo dye and methylene blue dye (both containing hydrogen peroxide) and that the kinetic properties were consistent with those of a pseudo-rst-order kinetics. E. coli was sterilized within a short period, and the kinetics followed those of pseudo-rst-order and hyperbolic kinetics. After ve repetitions of dye degradation, the degradation rates of the Orange II azo and methylene blue dyes were maintained at approximately 89.8% and 88.2%, respectively, which indicated that the prepared photocatalyst structure had high durability and reliability.

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In-situ-precipitation three-dimensional printing and photocatalytic applications of highly ordered interconnected submicron-scale pores in silver atomic cluster–silver chloride photocatalyst structures

Chen¹,

Huang²,

Lee³

et al. 2022

Preprint

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In this study, a silver atomic cluster(Ag@)/silver chloride photocatalyst structure with high porosity and a highly ordered interconnected three-dimensional (3D) porous network was prepared through a novel in-situ-precipitation 3D printing technique. Photocatalytic dye degradation and the sterilization of Escherichia coli under irradiation with visible light and ultraviolet light revealed that the photocatalyst structure had a strong degradation effect on the aqueous solutions of Orange II azo dye and methylene blue dye (both containing hydrogen peroxide) and that the kinetic properties were consistent with those of a pseudo-first-order kinetics. E. coli was sterilized within a short period, and the kinetics followed those of pseudo-first-order and hyperbolic kinetics. After five repetitions of dye degradation, the degradation rates of the Orange II azo and methylene blue dyes were maintained at approximately 89.8% and 88.2%, respectively, which indicated that the prepared photocatalyst structure had high durability and reliability.

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Wei-Tse Huang

In situ precipitation 3D printing of highly ordered silver cluster–silver chloride photocatalysts

In-situ-precipitation three-dimensional printing and photocatalytic applications of highly ordered interconnected submicron-scale pores in silver atomic cluster–silver chloride photocatalyst structures

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