Catalyzing Artificial Photosynthesis with TiO2 Heterostructures and Hybrids: Emerging Trends in a Classical yet Contemporary Photocatalyst

光催化 材料科学 纳米技术 异质结 光合作用 人工光合作用 二氧化钛 混合的 化学工程 催化作用 植物 光电子学 冶金 生物化学 生物 工程类
作者
Xiaowen Ruan,Shijie Li,Chengxiang Huang,Weitao Zheng,Xiaoqiang Cui,Sai Kishore Ravi
出处
期刊:Advanced Materials [Wiley]
卷期号:36 (17): e2305285-e2305285 被引量:187
标识
DOI:10.1002/adma.202305285
摘要

Abstract Titanium dioxide (TiO 2 ) stands out as a versatile transition‐metal oxide with applications ranging from energy conversion/storage and environmental remediation to sensors and optoelectronics. While extensively researched for these emerging applications, TiO 2 has also achieved commercial success in various fields including paints, inks, pharmaceuticals, food additives, and advanced medicine. Thanks to the tunability of their structural, morphological, optical, and electronic characteristics, TiO 2 nanomaterials are among the most researched engineering materials. Besides these inherent advantages, the low cost, low toxicity, and biocompatibility of TiO 2 nanomaterials position them as a sustainable choice of functional materials for energy conversion. Although TiO 2 is a classical photocatalyst well‐known for its structural stability and high surface activity, TiO 2 ‐based photocatalysis is still an active area of research particularly in the context of catalyzing artificial photosynthesis. This review provides a comprehensive overview of the latest developments and emerging trends in TiO 2 heterostructures and hybrids for artificial photosynthesis. It begins by discussing the common synthesis methods for TiO 2 nanomaterials, including hydrothermal synthesis and sol–gel synthesis. It then delves into TiO 2 nanomaterials and their photocatalytic mechanisms, highlighting the key advancements that have been made in recent years. The strategies to enhance the photocatalytic efficiency of TiO 2 , including surface modification, doping modulation, heterojunction construction, and synergy of composite materials, with a specific emphasis on their applications in artificial photosynthesis, are discussed. TiO 2 ‐based heterostructures and hybrids present exciting opportunities for catalyzing solar fuel production, organic degradation, and CO 2 reduction via artificial photosynthesis. This review offers an overview of the latest trends and advancements, while also highlighting the ongoing challenges and prospects for future developments in this classical yet rapidly evolving field.
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