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Literature DB >> 26700628

Stress-Based Model for the Breathing of Metal-Organic Frameworks.

Alexander V Neimark^1,2, François-Xavier Coudert¹, Anne Boutin³, Alain H Fuchs¹.

Abstract

Gas adsorption in pores of flexible metal-organic frameworks (MOF) induces elastic deformation and structural transitions associated with stepwise expansion and contraction of the material, known as breathing transitions between large pore (lp) and narrow pore (np) phases. We present here a simple yet instructive model for the physical mechanism of this enigmatic phenomenon considering the adsorption-induced stress exerted on the material as a stimulus that triggers breathing transitions. The proposed model implies that the structural transitions in MOFs occur when the stress reaches a certain critical threshold. We showcase this model by drawing on the example of Xe adsorption in MIL-53 (Al) at 220 K, which exhibits two consecutive hysteretic breathing transitions between lp and np phases. We also propose an explanation for the experimentally observed coexistence of np and lp phases in MIL-53 materials.

Entities: Chemical

Keywords: MIL-53; MOF; adsorption; adsorption stress; metal−organic frameworks; structural flexibility

Year: 2009 PMID： 26700628 DOI： 10.1021/jz9003087

Source DB: PubMed Journal: J Phys Chem Lett ISSN： 1948-7185 Impact factor: 6.475

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Cited

18 in total

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7. Methane storage in flexible metal-organic frameworks with intrinsic thermal management.

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