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Reference: Ryder, MR and Tan, J-C, (2014). Nanoporous metal organic framework materials for smart applications. Materials Science and Technology, 30 (13A), 1598-1612.Citable link to this page:


Nanoporous metal organic framework materials for smart applications

Abstract: This review is concerned with the recent advances in metal organic framework (MOF) materials. We highlight the unique combination of physicochemical and thermomechanical characteristics associated with MOF-type materials and illustrate emergent applications in three challenging technological sectors: energy, environmental remediation and biomedicine. MOFs represent an exciting new class of nanoporous crystalline solids constituting metal ions/clusters and multifunctional organic linkages, which self-assemble at molecular level to generate a plethora of ordered 3D framework materials. The most intriguing feature of a MOF lies in its exceptionally large surface area, far surpassing those of the best activated carbons and zeolites. Next generation multifunctional materials encompassing MOF based thin films, coatings, membranes and nanocomposites have potential for exploitation in an immense array of unconventional applications and smart devices. We pinpoint the key technological challenges and basic scientific questions to be addressed, so as to fulfil the translational potential for bringing MOFs from the laboratory into commercial applications.

Peer Review status:Peer reviewedPublication status:PublishedVersion:Accepted manuscriptNotes:© Institute of Materials, Minerals and Mining 2014, published under license by Taylor and Francis. This is the accepted manuscript version of the article. The final version is available online from Taylor and Francis at: [10.1179/1743284714Y.0000000550]

Bibliographic Details

Publisher: Taylor and Francis

Publisher Website:

Journal: Materials Science and Technologysee more from them

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Issue Date: 2014-04-28


Urn: uuid:e450742a-0ece-4a18-adb6-2809a246f5f8

Source identifier: 487922

Eissn: 1743-2847


Issn: 0267-0836 Item Description

Type: Journal article;

Version: Accepted manuscriptKeywords: Metal organic frameworks Porous structures Smart devices Inorganic-organic hybrids Multifunctionality Porous coordination polymers Tiny URL: pubs:487922


Autor: Ryder, MR - institutionUniversity of Oxford Oxford, MPLS, Engineering Science - - - Tan, J-C - institutionUniversity of Oxford Ox



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