Ruosha Zeng scite author profile

Semiconductor photocatalysis has long been considered as a promising approach for water pollution remediation. However, limited by the recombination of electrons and holes, low kinetics of photocatalysts and slow reaction rate impede large-scale applications. Herein, we addressed this limitation by developing a triphase photocatalytic system in which a photocatalytic reaction is carried out at air-liquid-solid joint interfaces. Such a triphase system allows the rapid delivery of oxygen, a natural electron scavenger, from air to the reaction interface. This enables the efficient removal of photogenerated electrons from the photocatalyst surface and minimization of electron-hole recombination even at high light intensities, thereby resulting in an approximate 10-fold enhancement in the photocatalytic reaction rate as compared to a conventional liquid/solid diphase system. The triphase system appears an enabling platform for understanding and maximizing photocatalyst kinetics, aiding in the application of semiconductor photocatalysis.

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A room temperature approach for the fabrication of aligned TiO₂ nanotube arrays on transparent conductive substrates

Zeng

Sheng

et al. 2016

Chem. Commun.

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Ruosha Zeng

Enhanced Photocatalytic Reaction at Air–Liquid–Solid Joint Interfaces

A room temperature approach for the fabrication of aligned TiO₂ nanotube arrays on transparent conductive substrates

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Ruosha Zeng

Enhanced Photocatalytic Reaction at Air–Liquid–Solid Joint Interfaces

A room temperature approach for the fabrication of aligned TiO2 nanotube arrays on transparent conductive substrates

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A room temperature approach for the fabrication of aligned TiO₂ nanotube arrays on transparent conductive substrates