2022
DOI: 10.3390/molecules27196537
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Field-Induced Slow Magnetic Relaxation in CoII Cyclopropane-1,1-dicarboxylates

Abstract: New CoII substituted malonate field-induced molecular magnets {[Rb6Co3(cpdc)6(H2O)12]∙6H2O}n (1) and [Cs2Co(cpdc)2(H2O)6]n (2) (where cpdc2− stands for cyclopropane-1,1-dicarboxylic acid dianions) were synthesized. Both compounds contain mononuclear bischelate fragments {CoII(cpdc)2(H2O)2}2− where the quasi-octahedral cobalt environment (CoO6) is complemented by water molecules in apical positions. The alkali metal atoms play the role of connectors between the bischelate fragments to form 3D and 2D polymeric s… Show more

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Cited by 9 publications
(3 citation statements)
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“…Metal-organic coordination polymers (MOCPs) have attracted significant research attention due to their broad structural design [1][2][3] and targeted modulation of properties that is possible by varying functional metal centers [4], organic ligands [5], and guest substrates [6]. Polynuclear and polymeric blocks consisting of unpaired electron-rich metal ions can present valuable magnetic properties (such as ferro- [7], antiferro- [8], and ferrimagnets [9], as well as slow magnetic relaxation [10,11]), complex luminescence patterns [12,13], redox behavior [14], and unique chemical bonding features [15]. In particular, such metal centers are of interest for the synthesis of MOCPs with designable and unique properties and unveil the usage of coordination polymers in diverse magnetic materials [16], in highly efficient luminophores and sensors [4,17], for data storage [18], and for production of multifunctional and "smart" materials [19].…”
Section: Introductionmentioning
confidence: 99%
“…Metal-organic coordination polymers (MOCPs) have attracted significant research attention due to their broad structural design [1][2][3] and targeted modulation of properties that is possible by varying functional metal centers [4], organic ligands [5], and guest substrates [6]. Polynuclear and polymeric blocks consisting of unpaired electron-rich metal ions can present valuable magnetic properties (such as ferro- [7], antiferro- [8], and ferrimagnets [9], as well as slow magnetic relaxation [10,11]), complex luminescence patterns [12,13], redox behavior [14], and unique chemical bonding features [15]. In particular, such metal centers are of interest for the synthesis of MOCPs with designable and unique properties and unveil the usage of coordination polymers in diverse magnetic materials [16], in highly efficient luminophores and sensors [4,17], for data storage [18], and for production of multifunctional and "smart" materials [19].…”
Section: Introductionmentioning
confidence: 99%
“…By varying the substituents in the methylene group of malonic acid, it is possible to change the structure and properties of the resulting compounds, which was previously demonstrated for homometallic complexes of manganese­(II), cobalt­(II), nickel­(II), , copper­(II), etc. Moreover, the structure of malonate complexes of transition metals, and hence their properties, can be changed by introducing atoms of s-, d-, or f-elements into a compound. To date, vast data on the synthesis, structural features, and properties of transition metal complexes (with the exception of iron) with anions of substituted malonic acids and atoms of s-elements have been collected.…”
Section: Introductionmentioning
confidence: 99%
“…Typically, MOFs are based on carboxylate anions, capable of a decently strong binding to the wide range of metal ions [1,2], or di-/polytopic N-donor bridges, whose strong coordination abilities are mostly related to Pearson's soft cations [3][4][5]. Metal-organic frameworks based on ligands of such types as well as their-derived composites are widely used in the selective adsorption [6], gas separations [7], electrochemical devices [8,9] and single-molecule magnets [10].…”
Section: Introductionmentioning
confidence: 99%