用于高效太阳能光解水的具有可控相结的均匀有序介孔TiO微球的合成。

Synthesis of uniform ordered mesoporous TiO microspheres with controllable phase junctions for efficient solar water splitting.

作者信息

Zhang Wei, He Haili, Tian Yong, Lan Kun, Liu Qi, Wang Changyao, Liu Yang, Elzatahry Ahmed, Che Renchao, Li Wei, Zhao Dongyuan

机构信息

Department of Chemistry , State Key Laboratory of Molecular Engineering of Polymers , Shanghai Key Lab of Molecular Catalysis and Innovative Materials , Laboratory of Advanced Materials , iChEM , Fudan University , Shanghai 200433 , P. R. China . Email:

Materials Science and Technology Program , College of Arts and Sciences , Qatar University , PO Box 2713 , Doha 2713 , Qatar.

出版信息

Chem Sci. 2018 Nov 21;10(6):1664-1670. doi: 10.1039/c8sc04155e. eCollection 2019 Feb 14.

DOI:10.1039/c8sc04155e

PMID:30842830

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6368211/

Abstract

As a benchmark photocatalyst, commercial P25-TiO has been widely used for various photocatalytic applications. However, the low surface area and poorly porous structure greatly limit its performance. Herein, uniform ordered mesoporous TiO microspheres (denoted as Meso-TiO-; represents the rutile percentage in the resultant microspheres) with controllable anatase/rutile phase junctions and radially oriented mesochannels are synthesized by a coordination-mediated self-assembly approach. The anatase/rutile ratio in the resultant microspheres can be facilely adjusted as desired (rutile percentage: 0-100) by changing the concentration of hydrochloric acid. As a typical one, the as-prepared Meso-TiO-25 microspheres have a similar anatase/rutile ratio to commercial P25. But the surface area (78.6 m g) and pore volume (0.39 cm g) of the resultant microspheres are larger than those of commercial P25. When used as the photocatalyst for H generation, the Meso-TiO-25 delivers high solar-driven H evolution rates under air mass 1.5 global (AM 1.5 G) and visible-light ( > 400 nm), respectively, which are significantly larger than those of commercial P25. This coordination-mediated self-assembly method paves a new way toward the design and synthesis of high performance mesoporous photocatalysts.

摘要

作为一种基准光催化剂，商用P25-TiO已被广泛应用于各种光催化领域。然而，其低比表面积和较差的多孔结构极大地限制了其性能。在此，通过配位介导的自组装方法合成了具有可控锐钛矿/金红石相界面和径向排列介孔通道的均匀有序介孔TiO微球（表示为Meso-TiO-；代表所得微球中金红石的百分比）。通过改变盐酸浓度，可以根据需要轻松调节所得微球中的锐钛矿/金红石比例（金红石百分比：0-100）。作为一个典型例子，所制备的Meso-TiO-25微球具有与商用P25相似的锐钛矿/金红石比例。但所得微球的比表面积（78.6 m²/g）和孔体积（0.39 cm³/g）大于商用P25。当用作光催化产氢的光催化剂时，Meso-TiO-25在空气质量1.5全球（AM 1.5 G）和可见光（>400 nm）条件下分别具有较高的太阳能驱动析氢速率，显著高于商用P25。这种配位介导的自组装方法为高性能介孔光催化剂的设计和合成开辟了一条新途径。

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用于高效太阳能光解水的具有可控相结的均匀有序介孔TiO微球的合成。

Synthesis of uniform ordered mesoporous TiO microspheres with controllable phase junctions for efficient solar water splitting.

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