Ultrahigh porosity in mesoporous MOFs: Promises and limitations

Senkovska I, Kaskel S (2014)


Publication Type: Journal article

Publication year: 2014

Journal

Book Volume: 50

Pages Range: 7089-7098

Journal Issue: 54

DOI: 10.1039/c4cc00524d

Abstract

Mesoporous MOFs are currently record holders in terms of the specific surface area with values exceeding 7000 m2 g−1, a textural feature unattained by traditional porous solids such as zeolites, carbons and even by graphene. They are promising candidates for high pressure gas storage and also for conversion or separation of larger molecules, whose size exceeds the pore size of zeolites. The rational strategies for synthesis of mesoporous MOF are outlined and the unambiguous consistent assessment of the surface area of such ultrahighly porous materials, as well as present challenges in the exciting research field, of mesoporous MOFs are discussed. The crystallinity, dynamic properties, functional groups, and wide range tunability render these materials as exceptional solids, but for the implementation in functional devices and even in industrial processes several aspects and effective characteristics (such as volumetric storage capacities, recyclability, mechanical and chemical stability, activation) should be addressed. © The Partner Organisations 2014.

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How to cite

APA:

Senkovska, I., & Kaskel, S. (2014). Ultrahigh porosity in mesoporous MOFs: Promises and limitations. Chemical Communications, 50(54), 7089-7098. https://doi.org/10.1039/c4cc00524d

MLA:

Senkovska, Irena, and Stefan Kaskel. "Ultrahigh porosity in mesoporous MOFs: Promises and limitations." Chemical Communications 50.54 (2014): 7089-7098.

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