<![CDATA[Synthesis of TiO <ce:inf loc='post'>2</ce:inf>@g-C <ce:inf loc='post'>3</ce:inf>N <ce:inf loc='post'>4</ce:inf> core-shell nanorod arrays with Z-scheme enhanced photocatalytic activity under visible light]]>

Jinggang Hao; Shaofeng Zhang; Feng Ren; Zhaowu Wang; Jianfei Lei; Xuening Wang; Tao Cheng; Liben Li

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2@g-C 3N 4 core-shell nanorod arrays with Z-scheme enhanced photocatalytic activity under visible light]]>

机译：<！[cdata [tio的合成 2 @gc 3 n 4 核 - 壳纳米棒阵列，Z方案增强了可见光下的光催化活动]]>

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Novel rutile TiO2@g-C3N4core-shell photocatalysts were synthesized by a facile saturated aqueous solution method. The composites were further characterized by using X-ray diffraction (XRD), high-resolution transmission microscopy (HRTEM), UV–visible light diffusion reflectance spectrometry (DRS), X-ray photoelectron spectroscopy (XPS) and so on. The results indicated that an ultrathin layer of g-C3N4was in-situ fabricated over the surface of rutile TiO2nanorod. The rutile TiO2@ g-C3N4core-shell structures showed much higher photo-current and photocatalytic activity for Rhodamine B (RhB) degradation under visible irradiation. The enhanced performance was attributed to the high separation efficiency of photo-induced carriers via a Z-scheme form.

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新颖的金红石TiO 2 @ GC 3 N 4 通过容易饱和水溶液方法合成核 - 壳光催化剂。通过使用X射线衍射（XRD），高分辨率透射显微镜（HRTEM），UV可见光漫射反射光谱（DRS），X射线光电子谱（XPS）等，进一步表征了复合材料。结果表明，GC 3 N 4 原位制造金红石TiO的表面 2 纳米棒。金红石TiO 2 @ GC 3 N 4 核心壳结构显示出可见光照射下的罗丹明B（RHB）降解的更高的光电流和光催化活性。增强的性能归因于通过Z方案形式归因于光诱导载体的高分离效率。 ]]>

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来源
《Journal of Colloid and Interface Science》 |2017年第2017期|共7页
作者
Jinggang Hao; Shaofeng Zhang; Feng Ren; Zhaowu Wang; Jianfei Lei; Xuening Wang; Tao Cheng; Liben Li;
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作者单位

School of Physics and Engineering Henan University of Science and Technology;

School of Physics and Engineering Henan University of Science and Technology;

School of Physics and Technology Wuhan University;

School of Physics and Engineering Henan University of Science and Technology;

School of Physics and Engineering Henan University of Science and Technology;

School of Physics and Technology Wuhan University;

School of Physics and Engineering Henan University of Science and Technology;

School of Physics and Engineering Henan University of Science and Technology;

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正文语种 eng
中图分类表面现象的物理化学;胶体化学（分散体系的物理化学）;
关键词
In-situ formation; TiO2@g-C3N4; Core-shell structure; Z-scheme; Photocatalysis;

机译：原位形成;TiO2 @ G-C3N4;核心壳结构;Z-Scheme;光催化;

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2@g-C 3N 4 core-shell nanorod arrays with Z-scheme enhanced photocatalytic activity under visible light]]>

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