用于改善一氧化碳和甲烷捕获的氟化多孔有机骨架材料。

Fluorinated porous organic frameworks for improved CO and CH capture.

作者信息

Comotti A, Castiglioni F, Bracco S, Perego J, Pedrini A, Negroni M, Sozzani P

机构信息

Department of Materials Science, University of Milano Bicocca, via R. Cozzi 55, 20125, Milano, Italy.

出版信息

Chem Commun (Camb). 2019 Aug 7;55(61):8999-9002. doi: 10.1039/c9cc03248g. Epub 2019 Jul 10.

DOI:10.1039/c9cc03248g

PMID:31290856

Abstract

A porous 3D selectively fluorinated framework (F-PAF1), robust yet flexible and with a surface area of 2050 m g, was synthesised by condensation of an ad hoc prepared fluorinated tetraphenylmethane (TPM) monomer to ensure homogenously distributed C-F dipoles in the swellable architecture. Tetradentate TPM was also the comonomer for the reaction with fluorinated difunctional monomers to obtain frameworks (FMFs) with a controlled amount of regularly spaced reorientable C-F dipoles. The isosteric heat of adsorption of CO was increased by 53% by even moderate C-F dipole insertion, with respect to the non-fluorinated frameworks. CO/N selectivity was also increased up to a value of 50 for the difluoro-containing comonomer. Moreover, methane shows optimal interaction energies of 24 kJ mol.

摘要

通过一种特别制备的氟化四苯基甲烷（TPM）单体缩合，合成了一种多孔3D选择性氟化骨架（F-PAF1），它坚固且灵活，表面积为2050 m²/g，以确保在可膨胀结构中均匀分布C-F偶极子。四齿TPM也是与氟化双官能单体反应的共聚单体，以获得具有可控数量规则间隔的可重排C-F偶极子的骨架（FMF）。相对于非氟化骨架，即使适度插入C-F偶极子，CO的等量吸附热也增加了53%。对于含二氟共聚单体，CO/N选择性也提高到了50。此外，甲烷显示出24 kJ/mol的最佳相互作用能。

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用于改善一氧化碳和甲烷捕获的氟化多孔有机骨架材料。

Fluorinated porous organic frameworks for improved CO and CH capture.

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