Runhua Yan scite author profile

In this study, a common refractory aquaculture hybrid wastewater containing copper and tetracycline (TC) was treated to simultaneously remove such pollutants through a formic-acid-assisted photocatalysis process with TiO2 as the photocatalyst. The results show that pure aqueous TC can be completely photodecomposed by TiO2, although the removal rate of pure Cu ions through photocatalysis without the addition of a scavenger can be neglected. For simultaneously photodegrading TC–Cu(II) hybrid wastewater, the TC degradation rate is accelerated, whereas the Cu(II) removal rate remains at 20% through adsorption. TC cannot promote the photoreduction of Cu(II) as a sacrificial agent, and its intermediate products form a stable complex with Cu(II), hindering further reduction. The addition of formic acid effectively releases Cu ions from the complex as a pH regulator and enhances the photocatalysis process as a hole scavenger. Through the addition of formic acid after complete TC photooxidation, the final chemical oxygen demand (COD) and Cu concentration were only 8 and 0.4 mg/L, respectively. This study provides a simple and promising method for simultaneously treating TC–Cu(II) hybrid wastewater using formic-acid-assisted TiO2 photocatalysis.

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KBiO₃ as an Effective Visible-Light-Driven Photocatalyst: Stability Improvement by In Situ Constructing KBiO₃/BiOX (X = Cl, Br, I) Heterostructure

Zhang

Zheng

Wang

et al. 2019

Ind. Eng. Chem. Res.

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Petal bismuth salt semiconductors are promising as visible-light-driven photocatalysts, but their short service times due to strong oxidation limit their application. In this research, the in situ construction of a p−n heterojunction, by growing BiOX on a KBiO 3 surface, is used as a strategy to improve the performance and stability. Evaluation of the photocatalytic degradation of crystal violet and phenol shows that the KBiO 3 /BiOX (X = Cl, Br, I) heterostructures exhibit significant improvement in photocatalytic performance and stability compared to KBiO 3 . The best one, KBiO 3 /(5.85%) BiOI, shows 98% degradation of crystal violet within 20 min, and of phenol within 1.5 h. No significant performance decay can be detected after repeated use. The development of KBiO 3 /BiOX heterostructure improves the applicability of KBiO 3 as an efficient visible-lightdriven photocatalyst.

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Cu(0)/TiO2 composite byproduct from photo-reduction of acidic Cu-containing wastewater and its reuse as a catalyst

Luo

Yan

et al. 2019

Journal of Water Process Engineering

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Runhua Yan

Harmless treatment and selective recovery of acidic Cu(II)-Cr(VI) hybrid wastewater via coupled photo-reduction and ion exchange

Simultaneous Removal of Cu(II) and Cr(VI) Ions from Wastewater by Photoreduction with TiO2–ZrO2

Simultaneous Removal of Tetracycline and Cu(II) in Hybrid Wastewater through Formic-Acid-Assisted TiO₂ Photocatalysis

KBiO₃ as an Effective Visible-Light-Driven Photocatalyst: Stability Improvement by In Situ Constructing KBiO₃/BiOX (X = Cl, Br, I) Heterostructure

Cu(0)/TiO2 composite byproduct from photo-reduction of acidic Cu-containing wastewater and its reuse as a catalyst

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Runhua Yan

Harmless treatment and selective recovery of acidic Cu(II)-Cr(VI) hybrid wastewater via coupled photo-reduction and ion exchange

Simultaneous Removal of Cu(II) and Cr(VI) Ions from Wastewater by Photoreduction with TiO2–ZrO2

Simultaneous Removal of Tetracycline and Cu(II) in Hybrid Wastewater through Formic-Acid-Assisted TiO2 Photocatalysis

KBiO3 as an Effective Visible-Light-Driven Photocatalyst: Stability Improvement by In Situ Constructing KBiO3/BiOX (X = Cl, Br, I) Heterostructure

Cu(0)/TiO2 composite byproduct from photo-reduction of acidic Cu-containing wastewater and its reuse as a catalyst

Contact Info

Product

Resources

About

Simultaneous Removal of Tetracycline and Cu(II) in Hybrid Wastewater through Formic-Acid-Assisted TiO₂ Photocatalysis

KBiO₃ as an Effective Visible-Light-Driven Photocatalyst: Stability Improvement by In Situ Constructing KBiO₃/BiOX (X = Cl, Br, I) Heterostructure