Issue 22, 2022

Magnetic interactions controlled by light in the family of Fe(ii)–M(iv) (M = Mo, W, Nb) hybrid organic–inorganic frameworks

Abstract

Three new hybrid organic–inorganic frameworks employing octacyanidometallates and 4,4′-bypiridine dioxide (4,4′-bpdo) as bridging molecules were prepared and characterized. The three-dimensional coordination frameworks {[FeII(μ-4,4′-bpdo)(H2O)2]2[MIV(CN)8]·9H2O}n (Fe2Mo, Fe2W and Fe2Nb; M = Mo, W and Nb) are composed of cyanido-bridged chains, which are interconnected by the organic linkers. Magnetic measurements for Fe2Nb show a two-step transition to the antiferromagnetic state, which results from the cooperation of antiferromagnetic intra- and inter-chain interactions. Fe2Mo and Fe2W, on the other hand, behave as paramagnets at 2 K because of the diamagnetic character of the corresponding octacyanidometallate(IV) building units. However, after 450 nm light irradiation they show transition to the metastable high spin MoIV or WIV states, respectively, with distinct ferromagnetic intrachain spin interactions, as opposed to the antiferromagnetic ones observed in the Fe2Nb framework.

Graphical abstract: Magnetic interactions controlled by light in the family of Fe(ii)–M(iv) (M = Mo, W, Nb) hybrid organic–inorganic frameworks

Supplementary files

Article information

Article type
Paper
Submitted
11 Mar 2022
Accepted
19 May 2022
First published
24 May 2022
This article is Open Access
Creative Commons BY license

Dalton Trans., 2022,51, 8885-8892

Magnetic interactions controlled by light in the family of Fe(II)–M(IV) (M = Mo, W, Nb) hybrid organic–inorganic frameworks

M. Magott, M. Ceglarska, M. Rams, B. Sieklucka and D. Pinkowicz, Dalton Trans., 2022, 51, 8885 DOI: 10.1039/D2DT00777K

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