用于将CO加氢合成甲醇和二甲醚的铜浸渍锆掺杂SBA-15催化剂的合成

Synthesis of a Cu-infiltrated Zr-doped SBA-15 catalyst for CO hydrogenation into methanol and dimethyl ether.

作者信息

Atakan A, Mäkie P, Söderlind F, Keraudy J, Björk E M, Odén M

机构信息

Nanostructured Materials, Department of Physics, Chemistry and Biology, Linköping University, Linköping SE-58183, Sweden.

Plasma and Coatings Physics Division, Department of Physics, Chemistry and Biology, Linköping University, Linköping SE-58183, Sweden.

出版信息

Phys Chem Chem Phys. 2017 Jul 26;19(29):19139-19149. doi: 10.1039/c7cp03037a.

DOI:10.1039/c7cp03037a

PMID:28702581

Abstract

A catalytically active nanoassembly comprising Cu-nanoparticles grown on integrated and active supports (large pore Zr-doped mesoporous SBA-15 silica) has been synthesized and used to promote CO hydrogenation. The doped mesoporous material was synthesized using a sol-gel method, in which the pore size was tuned between 11 and 15 nm while maintaining a specific surface area of about 700 m g. The subsequent Cu nanoparticle growth was achieved by an infiltration process involving attachment of different functional groups on the external and internal surfaces of the mesoporous structure such that 7-10 nm sized Cu nanoparticles grew preferentially inside the pores. Chemisorption showed improved absorption of both CO and H for the assembly compared to pure SBA-15 and 15% of the total CO was converted to methanol and dimethyl ether at 250 °C and 33 bar.

摘要

一种由生长在集成且具有活性的载体（大孔锆掺杂介孔SBA - 15二氧化硅）上的铜纳米颗粒组成的具有催化活性的纳米组件已被合成，并用于促进CO加氢反应。采用溶胶 - 凝胶法合成了掺杂的介孔材料，其中孔径在11至15纳米之间调节，同时保持约700 m²/g的比表面积。随后通过渗透过程实现了铜纳米颗粒的生长，该过程涉及在介孔结构的内外表面附着不同的官能团，使得7 - 10纳米尺寸的铜纳米颗粒优先在孔内生长。化学吸附表明，与纯SBA - 15相比，该组件对CO和H₂的吸收有所改善，在250℃和33巴的条件下，总CO的15%转化为甲醇和二甲醚。

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用于将CO加氢合成甲醇和二甲醚的铜浸渍锆掺杂SBA-15催化剂的合成

Synthesis of a Cu-infiltrated Zr-doped SBA-15 catalyst for CO hydrogenation into methanol and dimethyl ether.

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