Novel fabrication of a sepiolite supported cobalt-based catalyst via a coprecipitation-reduction method

Wang Fei; Ding Youpeng; Hao Ming; Fang Baizeng; Liang Jinsheng; Zhang Tingting; Gao Peizhang; Zhang Hui

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Novel fabrication of a sepiolite supported cobalt-based catalyst via a coprecipitation-reduction method

机译：通过共沉淀还原方法新建Sepiolite负载钴基催化剂的制造

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In this work, a novel supported cobalt-based catalyst Co-CoAl2O4/sepiolite was successfully prepared via a coprecipitation-reduction method. The nanocomposites were examined by various surface characterization techniques to explore the optimal preparation conditions which were found to be: 750 degrees C for the calcination temperature, 9 for the pH value of the precursor, 7.5:1 for the mass ratio of the metal salt to sepiolite and 650 degrees C for the reduction temperature. The introduction of sepiolite not only reduced the calcination temperature of forming spinel CoAl2O4, but also improved the distribution of the CoAl2O4 nanoparticles, which provided more active sites to support Co nanoparticles produced via the reduction of the CoAl2O4 /sepiolite composite subsequently. Moreover, the existence of CoAl2O4 as a transition layer provided a cobalt source for the subsequent reduction process and increased the service life of the catalyst. This work is believed to provide a new strategy for designing low cost and efficient cobalt-based catalysts.

机译：在这项工作中，通过共沉淀还原方法成功地制备了一种新的支持的钴基催化剂共煤体2O4 / Sepiolite。通过各种表面表征技术检查纳米复合材料以探讨发现的最佳制剂条件是：750℃的煅烧温度，9.对于金属盐的质量比为7.5：1的pH值。 Sepiolite和650℃的还原温度。海泡石的引入不仅降低了形成尖晶石煤2O4的煅烧温度，而且还改善了煤2O4纳米颗粒的分布，其提供了更多的活性位点，以随后通过减少煤2O4 /海泡石复合材料来支持纳米颗粒。此外，作为过渡层的存在煤2O4提供了随后还原过程的钴源，并增加了催化剂的使用寿命。据信这项工作提供了设计低成本和高效的基于钴的催化剂的新策略。

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来源
《Applied clay science》 |2021年第1期|105909.1-105909.9|共9页
作者
Wang Fei; Ding Youpeng; Hao Ming; Fang Baizeng; Liang Jinsheng; Zhang Tingting; Gao Peizhang; Zhang Hui;
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作者单位

Hebei Univ Technol Key Lab Special Funct Mat Ecol Environm & Informa Minist Educ Tianjin 300130 Peoples R China|Hebei Univ Technol Inst Power Source & Ecomat Sci Tianjin 300130 Peoples R China;

Hebei Univ Technol Key Lab Special Funct Mat Ecol Environm & Informa Minist Educ Tianjin 300130 Peoples R China|Hebei Univ Technol Inst Power Source & Ecomat Sci Tianjin 300130 Peoples R China;

Hebei Univ Technol Key Lab Special Funct Mat Ecol Environm & Informa Minist Educ Tianjin 300130 Peoples R China|Hebei Univ Technol Inst Power Source & Ecomat Sci Tianjin 300130 Peoples R China;

Univ British Columbia Dept Chem & Biol Engn Vancouver BC V6T 1Z3 Canada;

Hebei Univ Technol Key Lab Special Funct Mat Ecol Environm & Informa Minist Educ Tianjin 300130 Peoples R China|Hebei Univ Technol Inst Power Source & Ecomat Sci Tianjin 300130 Peoples R China;

Hebei Univ Technol Key Lab Special Funct Mat Ecol Environm & Informa Minist Educ Tianjin 300130 Peoples R China|Hebei Univ Technol Inst Power Source & Ecomat Sci Tianjin 300130 Peoples R China;

Hebei Univ Technol Key Lab Special Funct Mat Ecol Environm & Informa Minist Educ Tianjin 300130 Peoples R China|Hebei Univ Technol Inst Power Source & Ecomat Sci Tianjin 300130 Peoples R China;

Hebei Univ Technol Key Lab Special Funct Mat Ecol Environm & Informa Minist Educ Tianjin 300130 Peoples R China|Hebei Univ Technol Inst Power Source & Ecomat Sci Tianjin 300130 Peoples R China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类
关键词
Sepiolite; Catalyst support; Cobalt-based catalyst; Coprecipitation-reduction; CoAl2O4;

机译：Sepiolite;催化剂载体;基于钴的催化剂;COPRECIPITITION-RESSION;CAP2O4;

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2. Low-temperature steam-reforming of ethanol over ZnO-supported Ni and Cu catalysts The effect of nickel and copper addition to ZnO-supported cobalt-based catalysts [J] . Narcis Horns, Jordi Llorca, Pilar Ramirez de la Piscina Catalysis Today . 2006,第3期

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3. Ni supported on sepiolite catalysts for the hydrogenation of furfural to value-added chemicals: influence of the synthesis method on the catalytic performance [J] . Guerrero-Torres A., Jimenez-Gomez C. P., Cecilia J. A., Topics in Catalysis . 2019,第5a6期

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4. Fischer-Tropsch Synthesis: Investigation of the Metal-Support Interactionof Cobalt-Based Catalysts by Standard Tpr and Synchrotron-Based Tpr-Xanes/Tpr-Exafs Techniques [C] . Gary Jacobs, Yaying Ji, Burtron H. Davis, 41st Annual Loss Prevention Symposium . 2007

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5. Mesoporous silica-supported cobalt-based catalysts. [D] . Panpranot, Joongjai. 2002

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6. Fabrication and Characterization of New Composite Tio2 Carbon Nanofiber Anodic Catalyst Support for Direct Methanol Fuel Cell via Electrospinning Method [O] . N. Abdullah, S. K. Kamarudin, L. K. Shyuan, 2017

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7. Estimation of Average Crystallites Size of Active Phase in Ceria-Supported Cobalt-Based Catalysts by Hydrogen Chemisorption vs TEM and XRD Methods [O] . 2016

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Novel fabrication of a sepiolite supported cobalt-based catalyst via a coprecipitation-reduction method

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