可实现从三元混合物中一步纯化乙烯的氨基功能化混合超微孔材料。

Amino-Functionalised Hybrid Ultramicroporous Materials that Enable Single-Step Ethylene Purification from a Ternary Mixture.

作者信息

Mukherjee Soumya, Kumar Naveen, Bezrukov Andrey A, Tan Kui, Pham Tony, Forrest Katherine A, Oyekan Kolade A, Qazvini Omid T, Madden David G, Space Brian, Zaworotko Michael J

机构信息

Bernal Institute, Department of Chemical Sciences, University of Limerick, Limerick, V94 T9PX, Ireland.

Department of Chemistry, Technical University of Munich, Lichtenbergstraße 4, 85748, Garching b. München, Germany.

出版信息

Angew Chem Int Ed Engl. 2021 May 3;60(19):10902-10909. doi: 10.1002/anie.202100240. Epub 2021 Apr 1.

DOI:10.1002/anie.202100240

PMID:33491848

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8252428/

Abstract

Pyrazine-linked hybrid ultramicroporous (pore size <7 Å) materials (HUMs) offer benchmark performance for trace carbon capture thanks to strong selectivity for CO over small gas molecules, including light hydrocarbons. That the prototypal pyrazine-linked HUMs are amenable to crystal engineering has enabled second generation HUMs to supersede the performance of the parent HUM, SIFSIX-3-Zn, mainly through substitution of the metal and/or the inorganic pillar. Herein, we report that two isostructural aminopyrazine-linked HUMs, MFSIX-17-Ni (17=aminopyrazine; M=Si, Ti), which we had anticipated would offer even stronger affinity for CO than their pyrazine analogs, unexpectedly exhibit reduced CO affinity but enhanced C H affinity. MFSIX-17-Ni are consequently the first physisorbents that enable single-step production of polymer-grade ethylene (>99.95 % for SIFSIX-17-Ni) from a ternary equimolar mixture of ethylene, acetylene and CO thanks to coadsorption of the latter two gases. We attribute this performance to the very different binding sites in MFSIX-17-Ni versus SIFSIX-3-Zn.

摘要

吡嗪连接的混合超微孔（孔径<7 Å）材料（HUMs）对痕量碳捕获具有基准性能，这得益于其对CO相对于包括轻质烃在内的小分子气体具有很强的选择性。原型吡嗪连接的HUMs适合晶体工程，这使得第二代HUMs能够取代母体HUM SIFSIX-3-Zn的性能，主要是通过金属和/或无机支柱的取代。在此，我们报道了两种同构的氨基吡嗪连接的HUMs，MFSIX-17-Ni（17 = 氨基吡嗪；M = Si、Ti），我们原本预计它们对CO的亲和力会比其吡嗪类似物更强，但出乎意料的是，它们对CO的亲和力降低，而对C₂H₂的亲和力增强。因此，MFSIX-17-Ni是首批物理吸附剂，由于后两种气体的共吸附作用，能够从乙烯、乙炔和CO的三元等摩尔混合物中一步生产聚合物级乙烯（SIFSIX-17-Ni的纯度>99.95%）。我们将这种性能归因于MFSIX-17-Ni与SIFSIX-3-Zn中非常不同的结合位点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/98d3/8252428/b684745dddb2/ANIE-60-10902-g002.jpg

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可实现从三元混合物中一步纯化乙烯的氨基功能化混合超微孔材料。

Amino-Functionalised Hybrid Ultramicroporous Materials that Enable Single-Step Ethylene Purification from a Ternary Mixture.

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