Effect of Ca/Ti Ratio on the Core-Shell Structured CaTiO3@ basalt Fiber for Effective Photoreduction of Carbon Dioxide

Im Younghwan; Park Sun-Min; Kang Misook

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Effect of Ca/Ti Ratio on the Core-Shell Structured CaTiO3@ basalt Fiber for Effective Photoreduction of Carbon Dioxide

机译：Ca/Ti比对核壳结构CaTiO3@玄武岩纤维有效光还原二氧化碳的影响

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CaTiO3@ basalt fiber (BF) materials, consisting of CaTiO3 with various Ca/Ti ratios coated onto BF by a facile dipping method with binder, are introduced in this report. CaTiO3 powder was synthesized by hydrothermal method. The as-prepared CaTiO3@ BF materials were characterized by X-ray diffraction, scanning electron microscopy, UV-vis spectroscopy, photocurrent spectroscopy, and CO2-temperature programed desorption. CaTiO3(1.5: 1)@ BF, made using a precursor ratio of CaCl2/Titanium tetraisopropoxide = 1.5, had superior CO2 adsorption and also the best CO2 reduction performance (CH4 approximate to 17.8 ae mol/g(cat) and CO approximate to 73.1 mu mol/g(cat)).

机译：本报告介绍了CaTiO3@玄武岩纤维（BF）材料，该材料由具有不同Ca/Ti比的CaTiO3组成，通过粘合剂的简易浸渍法涂覆在BF上。采用水热法合成了CaTiO3粉体。采用X射线衍射、扫描电子显微镜、紫外-可见光谱、光电流光谱和CO2温度程序脱附等手段对制备的CaTiO3@高炉材料进行了表征。CaTiO3（1.5： 1）@ BF采用CaCl2/四异丙醇钛=1.5的前驱体比制得，具有优异的CO2吸附性和最佳的CO2还原性能（CH4近似为17.8 ae mol/g（cat），CO近似为73.1 μ mol/g（cat））。

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来源
《Bulletin of the Korean Chemical Society》 |2017年第3期|397-400|共4页
作者
Im Younghwan; Park Sun-Min; Kang Misook;
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作者单位

KICET, Gyeongnam 52851, South Korea;

Yeungnam Univ, Coll Sci, Dept Chem, Gyeongbuk 38541, South Korea;

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正文语种英语
中图分类化学;
关键词
CaTiO3@ basalt fiber; carbon dioxide photoreduction; methane; carbon monoxide;

机译：CaTiO3@玄武岩纤维;二氧化碳光还原;甲烷;一氧化碳;

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Effect of Ca/Ti Ratio on the Core-Shell Structured CaTiO3@ basalt Fiber for Effective Photoreduction of Carbon Dioxide

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