具有共暴露 (001) 和 (101) 面的锐钛矿 TiO2 基光催化材料用于能量转换和环境净化。

Anatase TiO with Co-exposed (001) and (101) Surface-Based Photocatalytic Materials for Energy Conversion and Environmental Purification.

机构信息

School of Environmental Science and Engineering, Qilu University of Technology (Shandong Academy of Sciences), Jinan, 250353, P. R. China.

Shandong Agriculture and Engineering University, Ji'nan, 250100, P. R. China.

出版信息

Chem Asian J. 2020 Dec 14;15(24):4168-4183. doi: 10.1002/asia.202001085. Epub 2020 Nov 16.

DOI:10.1002/asia.202001085

PMID:33150712

Abstract

Anatase TiO with co-exposed (001) and (101) surfaces [(001)-(101)-TiO ], as a semiconductor photocatalyst in crystal plane control engineering, has become a research hotspot in environmental purification and energy conversion due to its strong physicochemical stability, non-toxic and harmless, and low production cost. This review briefly introduces the basic principles and influencing factors of [(001)-(101)-TiO ]. On this basis, the effect of heterostructures formed by different materials and modification methods on its photocatalytic activity are elaborated in detail. Mainly formed heterostructures mentioned in this review include oxygen vacancy/Ti -[(001)-(101)-TiO ] heterostructures, noble metal-[(001)-(101)-TiO ] heterostructures, metal sulfide-[(001)-(101)-TiO ] heterostructures, metal oxide-[(001)-(101)-TiO ] heterostructures and carbon material-[(001)-(101)-TiO ] heterostructures. The light absorption range and charge separation mechanism of (001)-(101)-TiO after modification are discussed. Moreover, the application of photocatalytic redox reaction in simulating photosynthesis to prepare new energy (hydrogen evolution and CO reduction), environmental purification and sterilization is introduced in detail. Finally, various measures of designing (001)-(101)-TiO nanostructures for further applications in energy production and environmental remediation are discussed.

摘要

锐钛矿 TiO 具有共暴露的 (001) 和 (101) 表面 [(001)-(101)-TiO]，作为晶面控制工程中的半导体光催化剂，由于其具有较强的物理化学稳定性、无毒无害以及生产成本低等优点，在环境净化和能量转换方面已成为研究热点。本文简要介绍了 [(001)-(101)-TiO] 的基本原理和影响因素。在此基础上，详细阐述了不同材料和改性方法形成的异质结构对其光催化活性的影响。本文主要提到的形成异质结构包括氧空位/Ti-[(001)-(101)-TiO] 异质结构、贵金属/[(001)-(101)-TiO] 异质结构、金属硫化物/[(001)-(101)-TiO] 异质结构、金属氧化物/[(001)-(101)-TiO] 异质结构和碳材料/[(001)-(101)-TiO] 异质结构。讨论了修饰后 (001)-(101)-TiO 的光吸收范围和电荷分离机制。此外，详细介绍了光催化氧化还原反应在模拟光合作用制备新能源（析氢和 CO 还原）、环境净化和杀菌中的应用。最后，讨论了设计 (001)-(101)-TiO 纳米结构以进一步应用于能源生产和环境修复的各种措施。

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具有共暴露 (001) 和 (101) 面的锐钛矿 TiO2 基光催化材料用于能量转换和环境净化。

Anatase TiO with Co-exposed (001) and (101) Surface-Based Photocatalytic Materials for Energy Conversion and Environmental Purification.

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