The influence of cobalt doping on photocatalytic nano-titania: Crystal chemistry and amorphicity

Lim SH; Ferraris C; Schreyer M; Shih K; Leckie JO; White TJ

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The influence of cobalt doping on photocatalytic nano-titania: Crystal chemistry and amorphicity

机译：钴掺杂对光催化纳米二氧化钛的影响：晶体化学和非晶性

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Photocatalysts of nominal composition (Ti1-xCox)O2-delta with 0.001 <= x <= 0.05 were prepared via a sol-gel technique followed by air firing (200-1000 degrees C). The incorporation of cobalt inhibited crystal growth and slightly raised the anatase to rutile transformation temperature (similar to 700 degrees C). An amorphous component was invariably significant with the maxmum content (41-53wt%) appearing simultaneously with the removal of anatase, suggesting that rutile crystallizes via an aperiodic structure. While the introduction of cobalt shifted the apparent band gap to visible light energies this did not enhance performance as there was limited miscibility of cobalt in titania, non-catalytic secondary phases were present, and active Ti3+ sites were displaced by cobalt. (C) 2007 Elsevier Inc. All rights reserved.

机译：通过溶胶-凝胶技术，随后在空气中焙烧（200-1000℃），制备名义组成为（Ti1-xCox）O2-δ为0.001≤x≤0.05的光催化剂。钴的掺入抑制了晶体的生长，并稍微提高了锐钛矿到金红石相变温度（约700摄氏度）。非晶态组分始终是重要的，最大含量（41-53wt％）与锐钛矿的去除同时出现，表明金红石通过非周期性结构结晶。尽管钴的引入将表观带隙转移到可见光能量，但这并不能提高性能，因为二氧化钛中钴的混溶性有限，存在非催化的第二相，并且活性Ti3 +位点被钴取代。（C）2007 Elsevier Inc.保留所有权利。

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《International Journal of Quantum Chemistry》 |2007年第10期|共11页
作者
Lim SH; Ferraris C; Schreyer M; Shih K; Leckie JO; White TJ;
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正文语种 eng
中图分类物理化学（理论化学）、化学物理学;
关键词
anatase; rutile; amorphous content; photocatalytic activity; methylene blue; formic acid; TIO2 NANOPARTICLES; VISIBLE-LIGHT; DIOXIDE; RUTILE; CATALYST; PHASE;

机译：锐钛矿;金红石;无定形含量;光催化活性;亚甲基蓝;甲酸;TiO2纳米粒子;可见光;二氧化物;金红石;催化剂;相;

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1. The influence of cobalt doping on photocatalytic nano-titania: Crystal chemistry and amorphicity [J] . Lim SH, Ferraris C, Schreyer M, International Journal of Quantum Chemistry . 2007,第10期

机译：钴掺杂对光催化纳米二氧化钛的影响：晶体化学和非晶性
2. Sol-gel derived cobalt doped nano-titania photocatalytic system for solar light induced degradation of crystal violet [J] . T. Preethi, B. Abarna, K.N. Vidhya CERAMICS INTERNATIONAL . 2014,第8aPta2期

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4. The influence of Fe~(3+) doping on the crystallization of TiO_2 and their photocatalytic activity [C] . Ting Wang, Kang-lie Yin, Hai-feng Yang, International Conference on Energy and Environmental Protection . 2013

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The influence of cobalt doping on photocatalytic nano-titania: Crystal chemistry and amorphicity

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