Fengfei Xu scite author profile

This study aims to investigate the correlation of the photocatalytic oxidation effect of decomposing organic matter and inactivating bacteria using two different TiO2 materials: a Degussa P25 powder film and a commercial TiO2 thin film. The destructed organic matter was formaldehyde and the test bacterium was E. coli (JM 109 strain). The decomposition tests and the bactericidal tests were carried out in a plate reactor and on the TiO2 surface, respectively. Observations indicate that there exists an apparent correlation between the two photocatalytic processes of decomposing formaldehyde and inactivating E. coli. However, it is essential to distinguish the exact driver for microbe inactivation, in which both UV light irradiation and reactive oxygen species reaction are directfactors of disinfection, and for organic matter, in which only reactive oxygen species reaction contributes to degradation. Observations from this study would make it possible to use analogy as a potential method to evaluate the antimicrobial effect based on the organic compound degradation effect, whereby the latter is much easier to measure quantitatively.

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Reactive oxygen species (ROS)-responsive size-reducible nanoassemblies for deeper atherosclerotic plaque penetration and enhanced macrophage-targeted drug delivery

Zhang

Zhou

et al. 2023

Bioactive Materials

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A Fibrin Site‐Specific Nanoprobe for Imaging Fibrin‐Rich Thrombi and Preventing Thrombus Formation in Venous Vessels

Zhong

Huang

et al. 2022

Advanced Materials

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An integrated modeling tool for simultaneous analysis of thermal performance and indoor air quality in buildings

Yan

Song

Yang

et al. 2008

Building and Environment

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Fengfei Xu

Correlation of Photocatalytic Bactericidal Effect and Organic Matter Degradation of TiO₂ Part I: Observation of Phenomena

Reactive oxygen species (ROS)-responsive size-reducible nanoassemblies for deeper atherosclerotic plaque penetration and enhanced macrophage-targeted drug delivery

A Fibrin Site‐Specific Nanoprobe for Imaging Fibrin‐Rich Thrombi and Preventing Thrombus Formation in Venous Vessels

An integrated modeling tool for simultaneous analysis of thermal performance and indoor air quality in buildings

Contact Info

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About

Fengfei Xu

Correlation of Photocatalytic Bactericidal Effect and Organic Matter Degradation of TiO2 Part I: Observation of Phenomena

Reactive oxygen species (ROS)-responsive size-reducible nanoassemblies for deeper atherosclerotic plaque penetration and enhanced macrophage-targeted drug delivery

A Fibrin Site‐Specific Nanoprobe for Imaging Fibrin‐Rich Thrombi and Preventing Thrombus Formation in Venous Vessels

An integrated modeling tool for simultaneous analysis of thermal performance and indoor air quality in buildings

Contact Info

Product

Resources

About

Correlation of Photocatalytic Bactericidal Effect and Organic Matter Degradation of TiO₂ Part I: Observation of Phenomena