The Rule Rather than the Exception: Structural Flexibility of [Ni(cyclam)]<sup>2+</sup>-Based Cyano-Bridged Magnetic Networks

Nowicka, Beata; Reczyński, Mateusz; Bałanda, Maria; Fitta, Magdalena; Gaweł, Bartłomiej; Sieklucka, Barbara

doi:10.1021/acs.cgd.6b00800

Cited by 17 publications

(32 citation statements)

References 39 publications

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“…Moreover, some additional peaks that arise after attempted rehydration suggest partial decomposition. This behaviour is dissimilar to the fully reversible changes observed for related 2D and 1D solvatomagnetic structures based on Ni complexes of cyclam. This may be attributed to the formation of a stable hydrogen‐bond network in the dihydrates.…”

Section: Resultscontrasting

confidence: 92%

“…For several such networks of different dimensionality, the removal or exchange of solvent of crystallisation caused modification of bond lengths and angles and marked deformation of the structure. In most cases the changes were fully reversible and accompanied by modification of magnetic properties . The most pronounced flexibility of the coordination skeleton was found for 2D microporous networks with honeycomb‐like topology.…”

Section: Introductionmentioning

confidence: 98%

“…The most pronounced flexibility of the coordination skeleton was found for 2D microporous networks with honeycomb‐like topology. Three such assemblies based on octa‐ and hexacyanometallates of the general formula {[Ni(cyclam)] 3 [M(CN) m ] 2 · solv} n (M = Fe or Cr, m = 6;, M =W, m = 8) have been studied. For each of them four interconvertible pseudopolymorphic forms containing different types or amount of guest molecules (solv = H 2 O, MeOH or MeCN) could be obtained.…”

Section: Introductionmentioning

confidence: 99%

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Solvatomagnetic Studies on Cyano‐Bridged Bimetallic Chains Based on [Mn(cyclam)]³⁺ and Hexacyanometallates

et al. 2016

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Structures and solvatomagnetic properties of two 1D CN‐bridged assemblies based on the complex [Mn(cyclam)]3+ (cyclam = 1,4,8,11‐tetraazacyclotetradecane) were characterised. The isostructural {[Mn(cyclam)][Cr(CN)6]·6H2O}n (1·6H2O) and {[Mn(cyclam)][Fe(CN)6]·6H2O}n (2·6H2O) chains crystallise in the space group C2/m. When dried in air at a slightly elevated temperature the hexahydrates undergo irreversible partial dehydration to stable dihydrates 1·2H2O and 2·2H2O. The structure model of 1·2H2O proposed from the powder XRD data shows lower symmetry of the network, described by the space group P21, and a markedly different relative arrangement of the chains. The Mn–Cr chains are characterised by antiferromagnetic (AFM) exchange through the CN bridges (J = –2.8 K for 1·6H2O and –6.0 K for 1·2H2O), which was modelled by quantum Monte Carlo simulations. Together with weaker AFM Mn–Cr interactions between the chains, it leads to ferrimagnetic ordering. FM intrachain interactions (J = 4.5 K for 2·6H2O and 7.1 K for 2·2H2O) and AFM 3D ordering are observed for the Mn–Fe chains. The dehydration process in both compounds causes an increase in the strength of magnetic exchange, which reflects changes in the CN bridge geometry.

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Section: Resultscontrasting

confidence: 92%

Section: Introductionmentioning

confidence: 98%

Section: Introductionmentioning

confidence: 99%

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Solvatomagnetic Studies on Cyano‐Bridged Bimetallic Chains Based on [Mn(cyclam)]³⁺ and Hexacyanometallates

et al. 2016

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“…Conversely, there is no connection in the [001] direction, Projections of structure along the crystallographic axes for 1•5H 2 O and 1 (Figure 2) show the ladder-like topology retained upon dehydration. In both structures, the ladders lie in the (11-1) plane and run along the [1][2][3][4][5][6][7][8][9][10] direction. However, the changes in the coordination geometry of the [W(CN) 8 ] 3− ion and different alignment of the cyclam ligand in both forms are noticeable.…”

Section: Description Of Structuresmentioning

confidence: 99%

“…By combining it with different polycyanometallates, we obtained two main families of coordination polymers of 1D and 2D connectivity. The 2D {[Ni II (cyclam)] 3 [M(CN) n ] 2 } ∞ (M = Cr III , Fe III , n = 6; M = W V , n = 8) networks [4][5][6][7] show honeycomb-like topology with microporous channels running across the coordination layers. For these networks, we observed formation of different hydrates as well as the possibility to introduce small organic molecules.…”

Section: Introductionmentioning

confidence: 99%

Modification of Structure and Magnetic Properties in Coordination Assemblies Based on [Cu(cyclam)]2+ and [W(CN)8]3−

2019

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The 1D {[CuII(cyclam)]3[WV(CN)8]2.5H2O}n (1·5H2O) (cyclam = 1,4,8,11-tetraazacyclotetradecane) coordination polymer of ladder topology can be obtained in water-alcohol solution from [Cu(cyclam)]2+ and [W(CN)8]3− building blocks. Upon dehydration, 1·5H2O undergoes a single-crystal-to-single-crystal structural transformation to the anhydrous {[CuII(cyclam)]3[WV(CN)8]2}n (1) form, which retains the same topology, but is characterized by shorter Cu-W distances and significantly more bent CN-bridges. The deformation of the coordination skeleton is reflected in magnetic properties: the predominant intra-chain interactions change from ferromagnetic in 1·5H2O to antiferromagnetic in 1. The reaction between the same building blocks in water solution under slow diffusion conditions leads to the formation of a 0D {[CuII(cyclam)(H2O)]2[CuII(cyclam)][WV(CN)8]2}.3H2O pentanuclear assembly (2·3H2O).

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Thin Films of Solvatomagnetic CN‐Bridged Coordination Polymers: From Micro to Nanoscale

Pacanowska

Fitta

Kozieł

et al. 2022

Adv Materials Inter

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Cyano-bridged coordination polymers constitute an important group of molecule-based magnets. [12][13][14] The CN-bridges mediate relatively strong magnetic interactions and at the same time they allow reasonable control over the self-assembly process and thus the rational design of versatile topologies by the use of appropriate blocking ligands. Moreover, the CN-bridges are robust but bendable, which may give rise to framework flexibility and structural transformations triggered by desolvation or sorption of small molecules. Since the sign and magnitude of magnetic superexchange for many metal ions depend on the geometry of the CN-bridges, the structurally flexible networks often show sorption-driven changes in magnetic characteristics. Porosity is not common in CN-bridged polymers, since the CN-ligands are relatively short. However, it can be introduced by the use of additional long organic bridging ligands or pre-defined complex building blocks acting as linear linkers. Following the later approach, by using Ni II with equatorial positions blocked by the cyclam ligand (cyclam = 1,4,7,11-tetraazacyclotetradecane), a family of microporous 2D networks of characteristic honeycomblike topology, based on hexa-or octa-cyanometallates have been obtained. [15][16][17] Although these coordination polymers do not contain any coordinated solvent molecules, they show unusually rich solvatomagnetic effect, connected with sorption of guest solvent molecules, like water or methanol, into the microporous channels. The structural transformations upon guest inclusion are restricted to changes in bond geometry and the deformation of the coordination skeleton, which retains its original topology. However, even these relatively small structural changes cause marked differences in magnetic properties between different pseudopolymorphic forms. [18] Two isostructural {[Ni II (cyclam)] 3 [M III (CN) 6 ] 2 •nH 2 O}n (M = Cr or Fe) networks proved to be particularly robust and were characterized as two different hydrates and an anhydrous form, with fully reversible interconversion pathways between them. [19] In view of potential applications of the solvatomagnetic effect we decided to find effective methods of surface deposition for the above mentioned networks and investigate if their properties are retained in thin films.Preparation of molecule-based magnetic materials in the form of thin films is an important step toward exploration of their application potential. [20] Compounds in the form of thin films react more efficiently to external stimuli and are more suitable for the construction of molecular devices. Several Two types of thin films differing in thickness and morphology of microporous CN-bridged hybrid organic-inorganic {[Ni II (cyclam)] 3 [M III (CN) 6 ] 2 •nH 2 O}n (M = Cr or Fe, cyclam = 1,4,7,11-tetraazacyclotetradecane) coordination networks are obtained by using physical and chemical deposition techniques. By adsorption on the PET/ITO substrate of the pre-formed nano-sized crystallites from water suspension, films of 1-2...

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The Rule Rather than the Exception: Structural Flexibility of [Ni(cyclam)]²⁺-Based Cyano-Bridged Magnetic Networks

Cited by 17 publications

References 39 publications

Solvatomagnetic Studies on Cyano‐Bridged Bimetallic Chains Based on [Mn(cyclam)]³⁺ and Hexacyanometallates

Solvatomagnetic Studies on Cyano‐Bridged Bimetallic Chains Based on [Mn(cyclam)]³⁺ and Hexacyanometallates

Modification of Structure and Magnetic Properties in Coordination Assemblies Based on [Cu(cyclam)]2+ and [W(CN)8]3−

Thin Films of Solvatomagnetic CN‐Bridged Coordination Polymers: From Micro to Nanoscale

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The Rule Rather than the Exception: Structural Flexibility of [Ni(cyclam)]2+-Based Cyano-Bridged Magnetic Networks

Cited by 17 publications

References 39 publications

Solvatomagnetic Studies on Cyano‐Bridged Bimetallic Chains Based on [Mn(cyclam)]3+ and Hexacyanometallates

Solvatomagnetic Studies on Cyano‐Bridged Bimetallic Chains Based on [Mn(cyclam)]3+ and Hexacyanometallates

Modification of Structure and Magnetic Properties in Coordination Assemblies Based on [Cu(cyclam)]2+ and [W(CN)8]3−

Thin Films of Solvatomagnetic CN‐Bridged Coordination Polymers: From Micro to Nanoscale

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Product

Resources

About

The Rule Rather than the Exception: Structural Flexibility of [Ni(cyclam)]²⁺-Based Cyano-Bridged Magnetic Networks

Solvatomagnetic Studies on Cyano‐Bridged Bimetallic Chains Based on [Mn(cyclam)]³⁺ and Hexacyanometallates

Solvatomagnetic Studies on Cyano‐Bridged Bimetallic Chains Based on [Mn(cyclam)]³⁺ and Hexacyanometallates