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Ti-Based porous materials for reactive oxygen species-mediated photocatalytic reactions

Title
Ti-Based porous materials for reactive oxygen species-mediated photocatalytic reactions
Author(s)
Park, SeonghunKeum, YesubPark, Jinhee
Issued Date
2022-01
Citation
Chemical Communications, v.58, no.5, pp.607 - 618
Type
Article
Keywords
METAL-ORGANIC FRAMEWORKMESOPOROUS TIO2HYDROTHERMAL SYNTHESISAEROBIC OXIDATIONCO2MICROSPHERESDEGRADATIONGENERATIONTITANIAWATER
ISSN
1359-7345
Abstract
Reactive oxygen species (ROS) are highly reactive oxidants that are typically generated by the irradiation of semiconducting materials with visible or UV light and are widely used for the photocatalytic degradation of toxic substances, photodynamic therapy, and selective organic transformations. In this context, TiO2 is considered to be among the most promising photocatalysts due to its high redox activity, structural stability, and natural abundance. In view of the extensive development of highly active photocatalysts, we herein briefly introduce TiO2 and the mechanisms of TiO2-mediated ROS generation, subsequently focusing on key advances in the design and synthesis of Ti-containing porous materials, such as porous TiO2, Ti-based metal-organic frameworks, and Ti-based metal-organic aerogels. In particular, this review highlights the significance of porosity and the structure-function relationship for the development of Ti-based photocatalysts. The structures, porosities, and ROS generation mechanisms of these materials as well as the related efficiencies of ROS-mediated photocatalytic organic transformations are discussed in detail to provide a useful reference for future researchers and to inspire the exploration of high-performance photocatalysts. This journal is © The Royal Society of Chemistry.
URI
http://hdl.handle.net/20.500.11750/16076
DOI
10.1039/d1cc04858a
Publisher
Royal Society of Chemistry
Related Researcher
  • 박진희 Park, Jinhee
  • Research Interests Organic-Inorganic Hybrid Materials; Metal-Organic Polyheda;Metal-Organic Frameworks; Porous Polymer Networks
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Department of Physics and Chemistry Organic-Inorganic Hybrids Lab 1. Journal Articles

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