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Literature DB >> 22302017

Influence of ligand field stabilization energy on the elastic properties of multiferroic MOFs with the perovskite architecture.

Jin-Chong Tan¹, Prashant Jain, Anthony K Cheetham.

Abstract

We report the mechanical properties of four isostructural metal-organic frameworks (MOFs) that adopt the ABX(3) perovskite topology: [(CH(3))(2)NH(2)]M(HCOO)(3), where M = divalent Mn, Co, Ni, and Zn. Their Young's moduli were measured via single-crystal nanoindentation. We show that the mechanical stability of such isostructural frameworks with octahedral coordination increases with greater ligand field stabilization energy (LFSE).

Entities: Chemical Disease

Year: 2012 PMID： 22302017 DOI： 10.1039/c2dt12300b

Source DB: PubMed Journal: Dalton Trans ISSN： 1477-9226 Impact factor: 4.390

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Cited

3 in total

1. An extended Tolerance Factor approach for organic-inorganic perovskites.

Authors: Gregor Kieslich; Shijing Sun; Anthony K Cheetham
Journal: Chem Sci Date: 2015-04-14 Impact factor: 9.825

2. Flexibility transition and guest-driven reconstruction in a ferroelastic metal-organic framework†Electronic supplementary information (ESI) available: Atomic coordinates and lattice parameter data. CCDC 1016797. For ESI and crystallographic data in CIF or other electronic format see DOI: 10.1039/c4ce01572jClick here for additional data file.

Authors: Sarah J Hunt; Matthew J Cliffe; Joshua A Hill; Andrew B Cairns; Nicholas P Funnell; Andrew L Goodwin
Journal: CrystEngComm Date: 2014-10-14 Impact factor: 3.756

3. Elastic Properties and Energy Dissipation Related to the Disorder-Order Ferroelectric Transition in a Multiferroic Metal-Organic Framework [(CH₃)₂NH₂][Fe(HCOO)₃] with a Perovskite-Like Structure.

Authors: Zhiying Zhang; Xin Shen; Hongliang Yu; Xiaoming Wang; Lei Sun; Shumin Yue; Dongpeng Cheng; Hao Tang
Journal: Materials (Basel) Date: 2021-05-05 Impact factor: 3.623

3 in total

Influence of ligand field stabilization energy on the elastic properties of multiferroic MOFs with the perovskite architecture.

1. An extended Tolerance Factor approach for organic-inorganic perovskites.

3. Elastic Properties and Energy Dissipation Related to the Disorder-Order Ferroelectric Transition in a Multiferroic Metal-Organic Framework [(CH3)2NH2][Fe(HCOO)3] with a Perovskite-Like Structure.

3. Elastic Properties and Energy Dissipation Related to the Disorder-Order Ferroelectric Transition in a Multiferroic Metal-Organic Framework [(CH₃)₂NH₂][Fe(HCOO)₃] with a Perovskite-Like Structure.