有序介孔碳载体表面功能化对费托合成低碳烯烃铁催化剂的影响。

Effects of the Functionalization of the Ordered Mesoporous Carbon Support Surface on Iron Catalysts for the Fischer-Tropsch Synthesis of Lower Olefins.

作者信息

Oschatz Martin, Hofmann Jan P, van Deelen Tom W, Lamme Wouter S, Krans Nynke A, Hensen Emiel J M, de Jong Krijn P

机构信息

Group of Inorganic Chemistry and Catalysis Debye Institute for Nanomaterials Science, Utrecht University Universiteitsweg 99 3584 CG Utrecht The Netherlands.

Laboratory of Inorganic Materials Chemistry, Department of Chemical Engineering and Chemistry Eindhoven University of Technology Groene Loper 5 5612 AE Eindhoven The Netherlands.

出版信息

ChemCatChem. 2017 Feb 21;9(4):620-628. doi: 10.1002/cctc.201601228. Epub 2017 Jan 18.

DOI:10.1002/cctc.201601228

PMID:28286582

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5324618/

Abstract

Ordered mesoporous carbon (CMK-3) with different surface modifications is applied as a support for Fe-based catalysts in the Fischer-Tropsch to olefins synthesis (FTO) with and without sodium and sulfur promoters. Different concentrations of functional groups do not affect the size (3-5 nm) of Fe particles in the fresh catalysts but iron (carbide) supported on N-enriched CMK-3 and a support with a lower concentration of functional groups show higher catalytic activity under industrially relevant FTO conditions (340 °C, 10 bar, H/CO=2) compared to a support with an O-enriched surface. The addition of promoters leads to more noticeable enhancements of the catalytic activity (3-5 times higher) and the selectivity to C-C olefins (≈2 times higher) than surface functionalization of the support. Nitrogen surface functionalization and removal of surface groups before impregnation and calcination, however, further increase the activity of the catalysts in the presence of promoters. The confinement of the Fe nanoparticles in the mesopores of CMK-3 restricts but does not fully prevent particle growth and, consequently, the decrease of activity under FTO conditions.

摘要

具有不同表面修饰的有序介孔碳（CMK-3）被用作铁基催化剂的载体，用于费托合成烯烃（FTO）反应，反应中使用或不使用钠和硫促进剂。不同浓度的官能团不会影响新鲜催化剂中铁颗粒的尺寸（3-5纳米），但负载在富氮CMK-3和官能团浓度较低的载体上的铁（碳化物）在工业相关的FTO条件（340°C，10巴，H/CO=2）下，比表面富氧的载体表现出更高的催化活性。与载体的表面官能化相比，促进剂的添加导致催化活性有更显著的提高（高3-5倍）以及对碳-碳烯烃的选择性（高约2倍）。然而，在浸渍和煅烧之前进行氮表面官能化和去除表面基团，在促进剂存在的情况下进一步提高了催化剂的活性。CMK-3介孔中Fe纳米颗粒的限域作用限制了但并未完全阻止颗粒生长，因此也限制了FTO条件下活性的降低。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bd69/5324618/7c44fd1f4f37/CCTC-9-620-g001.jpg

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有序介孔碳载体表面功能化对费托合成低碳烯烃铁催化剂的影响。

Effects of the Functionalization of the Ordered Mesoporous Carbon Support Surface on Iron Catalysts for the Fischer-Tropsch Synthesis of Lower Olefins.

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