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一种互穿类金刚石配位网络在甲烷储存压力下呈现门控开启现象,其在高孔隙率和无孔隙率相之间的可逆切换。

Reversible Switching between Highly Porous and Nonporous Phases of an Interpenetrated Diamondoid Coordination Network That Exhibits Gate-Opening at Methane Storage Pressures.

作者信息

Yang Qing-Yuan, Lama Prem, Sen Susan, Lusi Matteo, Chen Kai-Jie, Gao Wen-Yang, Shivanna Mohana, Pham Tony, Hosono Nobuhiko, Kusaka Shinpei, Perry John J, Ma Shengqian, Space Brian, Barbour Leonard J, Kitagawa Susumu, Zaworotko Michael J

机构信息

Department of Chemical Sciences, Bernal Institute, University of Limerick, Limerick, Republic of Ireland.

Department of Chemistry and Polymer Science, University of Stellenbosch, Matieland, 7602, South Africa.

出版信息

Angew Chem Int Ed Engl. 2018 May 14;57(20):5684-5689. doi: 10.1002/anie.201800820. Epub 2018 Apr 17.

DOI:10.1002/anie.201800820
PMID:29575465
Abstract

Herein, we report that a new flexible coordination network, NiL (L=4-(4-pyridyl)-biphenyl-4-carboxylic acid), with diamondoid topology switches between non-porous (closed) and several porous (open) phases at specific CO and CH pressures. These phases are manifested by multi-step low-pressure isotherms for CO or a single-step high-pressure isotherm for CH . The potential methane working capacity of NiL approaches that of compressed natural gas but at much lower pressures. The guest-induced phase transitions of NiL were studied by single-crystal XRD, in situ variable pressure powder XRD, synchrotron powder XRD, pressure-gradient differential scanning calorimetry (P-DSC), and molecular modeling. The detailed structural information provides insight into the extreme flexibility of NiL . Specifically, the extended linker ligand, L, undergoes ligand contortion and interactions between interpenetrated networks or sorbate-sorbent interactions enable the observed switching.

摘要

在此,我们报道了一种具有类金刚石拓扑结构的新型柔性配位网络NiL(L = 4-(4-吡啶基)-联苯-4-羧酸),它在特定的CO和CH压力下会在无孔(封闭)相和几种多孔(开放)相之间切换。这些相通过CO的多步低压等温线或CH的单步高压等温线表现出来。NiL的潜在甲烷工作容量接近压缩天然气,但所需压力要低得多。通过单晶XRD、原位可变压力粉末XRD、同步加速器粉末XRD、压力梯度差示扫描量热法(P-DSC)和分子模拟研究了NiL的客体诱导相变。详细的结构信息有助于深入了解NiL的极端灵活性。具体而言,延伸的连接配体L发生配体扭曲,互穿网络之间的相互作用或吸附质-吸附剂相互作用导致了所观察到的切换。

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