Effect of synthesis method on physicochemical and catalytic properties of Cu-Zn-based mesoporous nanocatalysts for water-gas shift reaction

Salehirad Alireza; Latifi Seyed Mahdi

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Effect of synthesis method on physicochemical and catalytic properties of Cu-Zn-based mesoporous nanocatalysts for water-gas shift reaction

机译：合成方法对水 - 换水反应Cu-Zn基介孔纳米催化剂物理化学和催化性能的影响

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摘要

Two new mesoporous nanocatalysts based on CuO-ZnO/MgO were synthesized by using a modified liquid-phase method. Due to use of this method, the nanocatalysts contained an efficient ZnO/MgO phase in which MgO is incorporated into ZnO phase. The structural and catalytic properties of the nanocatalysts in the water-gas shift reaction were investigated compared with samples prepared by conventional sol-gel and liquid-phase methods as references, as well as a commercial catalyst. The results reveal that the new nanocatalysts exhibited higher surface area, lower degree of agglomeration, and higher activity than the reference samples, indicating the influence of both the synthesis method and phase composition.

机译：通过使用改性的液相法合成基于CuO-ZnO / MgO的两个新的介孔纳米催化剂。由于使用该方法，纳米催化剂含有有效的ZnO / MgO相，其中MgO掺入ZnO相中。将纳米催化剂的结构和催化性能与通过常规溶胶 - 凝胶和液相方法制备的样品相比，以及作为参考文献以及商业催化剂的样品。结果表明，新的纳米催化剂表现出较高的表面积，降低程度较低，活性更高，表明合成方法和相组合物的影响。

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来源
《Research on Chemical Intermediates》 |2017年第7期|共17页
作者
Salehirad Alireza; Latifi Seyed Mahdi;
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作者单位

IROST Dept Chem Technol POB 33535-111 Tehran Iran;

IROST Dept Chem Technol POB 33535-111 Tehran Iran;

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原文格式 PDF
正文语种 eng
中图分类有机化学;
关键词
Synthesis method; Water-gas shift reaction; Cu-Zn-based nanocatalysts; Physicochemical properties;

机译：合成方法;水 - 气体变换反应;Cu-Zn基纳米催化剂;物理化学性质;

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专利

1. Effect of synthesis method on physicochemical and catalytic properties of Cu-Zn-based mesoporous nanocatalysts for water-gas shift reaction [J] . Salehirad Alireza, Latifi Seyed Mahdi Research on Chemical Intermediates . 2017,第7期

机译：合成方法对水 - 换水反应Cu-Zn基介孔纳米催化剂物理化学和催化性能的影响
2. Microwave irradiation assisted rapid synthesis of Fe-Ru bimetallic nanoparticles and their catalytic properties in water-gas shift reaction [J] . Jian-Quan Du, Yong Zhang, Tian Tian, Materials Research Bulletin . 2009,第6期

机译：微波辅助快速合成Fe-Ru双金属纳米粒子及其在水煤气变换反应中的催化性能
3. Effect of precipitation sequence on physicochemical properties of CeO_2 support for hydrogen production from low-temperature water-gas shift reaction [J] . Na Hyun-Suk, Shim Jae-Oh, Ahn Seon-Yong, International journal of hydrogen energy . 2018,第37期

机译：沉淀顺序对低温水煤气变换反应产氢CeO_2载体理化性质的影响
4. Palladium supported on functionalized mesoporous silica: synthesis, structure and catalytic properties in Suzuki-Miyaura coupling reactions [C] . Guoheng Zhang, Peiyu Wang, Xiufang Wei International Conference on Advanced Engineering Materials and Technology . 2013

机译：钯在官能化介孔二氧化硅中支持钯：铃木宫达偶联反应中的合成，结构和催化性能
5. Investigation of active sites and reaction networks in catalytic hydrogen production: Steam reforming of lower alkanes and the water-gas shift reaction. [D] . Natesakhawat, Sittichai. 2005

机译：研究催化氢生产中的活性位点和反应网络：低级烷烃的蒸汽重整和水煤气变换反应。
6. Impact of Incorporation of Active Nanoporous Componentsor Their Precursors in a CuAlO/CuAl Ceramometal Skeleton on the Propertiesin the Low-Temperature Water-Gas Shift Reaction [O] . Serguei F. Tikhov, Tatyana P. Minyukova, Konstantin R. Valeev, 2020

机译：掺入活性纳米多孔组分的影响或它们在性质上的Cualo / Wual陶瓷骨架中的前体在低温水气移反应中
7. Synthesis of Improved Catalytic Materials for High-Temperature Water-gas Shift Reaction [O] . Cherkezova-Zheleva Zara P., Zaharieva Katerina L., Ivanov Ivan B., 2015

机译：改进的高温水煤气变换反应催化材料的合成
8. Catalytic membrane reactor for facilitating the water-gas shift reaction at high temperature [R] . Edlund, D. J. 1994

机译：催化膜反应器，用于促进高温水煤气变换反应

Effect of synthesis method on physicochemical and catalytic properties of Cu-Zn-based mesoporous nanocatalysts for water-gas shift reaction

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