Crystal structures and magnetic properties of a set of dihalo-bridged oxalamidato copper(<scp>ii</scp>) dimers

Žilić, Dijana; Rakvin, Boris; Milić, Dalibor; Pajić, Damir; Đilović, Ivica; Cametti, Massimo; Džolić, Zoran

doi:10.1039/c4dt00925h

Cited by 28 publications

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“…Reaction of ligands L A = N ‐( l ‐alanine methyl ester)‐ N ′‐[(2‐pyridine‐2‐yl)methyl]oxalamide and L V = N ‐( l ‐valine methyl ester)‐ N ′‐[(2‐pyridine‐2‐yl)methyl]oxalamide with CuCl 2 and CuBr 2 in MeOH resulted in crystals of the [CuL A (μ‐Cl)] 2 , [CuL A (μ‐Br)] 2 (which crystallized with two independent molecules in the asymmetric unit), [CuL V (μ‐Cl)] 2 , and [CuL V (μ‐Br)] 2 complexes, which were analyzed by X‐ray single‐crystal diffraction (Figure ). The structures of these complexes are very similar to the structures of the dihalo‐bridged Cu II complexes we previously described . Each Cu II ion has an ideal or approximately ideal square‐pyramidal‐type of geometry, as ascertained by the geometric parameter τ of 0.00–0.20 (Table ), for which perfectly square‐pyramidal geometry is associated with τ =0 .…”

Section: Resultssupporting

confidence: 69%

“…Recently, magnetostructural correlations in a set of dihalo‐bridged oxalamide copper(II) dimers were reported . Herein, the presented four newly synthesized complexes have slightly different ligands than those previously reported.…”

Section: Introductionmentioning

confidence: 83%

“…The ligands prepared from l ‐valine and l ‐alanine and the corresponding Cu complexes were synthesized as previously described . Reagents were purchased from Aldrich or Fluka and were used without further purification.…”

Section: Introductionmentioning

confidence: 99%

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Magnetostructural Characterization of Oxalamide Dihalo‐Bridged Copper Dimers: Intra‐ and Interdimer Interactions Studied by Single‐Crystal Electron Spin Resonance Spectroscopy

et al. 2017

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Detailed single-crystal electron spin resonance (ESR) analysis of oxalamide complexes with halogen-bridged copper dimers, supported by X-ray, magnetic susceptibility, and powder ESR studies, is reported. Four complexes with two different ligands are synthesized: [CuL (μ-X)] and [CuL (μ-X)] , for which L =N-(l-alanine methyl ester)-N'-[(2-pyridine-2-yl)methyl]oxalamide and L =N-(l-valine methyl ester)-N'-[(2-pyridine-2-yl)methyl]oxalamide, for which X=Cl or Br. X-ray analysis shows that the geometry at each copper(II) ion is square pyramidal, whereas two pyramids share one base-to-apex edge with parallel basal planes. The complexes are linked by hydrogen bonds into infinite chains and are further linked into a 3D network. Susceptibility measurements show that the copper centers in the dimers are weakly antiferromagnetically coupled (|J|≈1-2 cm ). From powder ESR spectroscopy, the g values and dx2-y2 orbital as the ground state of the unpaired electron are determined. The complexes show unusual anisotropic splitting and merging of the ESR lines if their single crystals rotate in a magnetic field. The observation of this partially resolved intradimer dipolar splitting enables estimation of the weak interdimer exchange interaction parameter |J'|≈0.001 cm .

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Section: Resultssupporting

confidence: 69%

Section: Introductionmentioning

confidence: 83%

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Magnetostructural Characterization of Oxalamide Dihalo‐Bridged Copper Dimers: Intra‐ and Interdimer Interactions Studied by Single‐Crystal Electron Spin Resonance Spectroscopy

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“…The simulated spectra, shown in Fig. 56,57 If we consider all copper ions in the sphere of radius 15Å, the values of the dipolar linewidths are G d $ 5-25 mT. The same parameters were used for the simulation of the spectra at low and room temperatures by taking into consideration only line-broadening effect (ESR lines were broader at higher temperatures).…”

Section: Esr Spectroscopymentioning

confidence: 99%

From mononuclear to linear one-dimensional coordination species of copper(ii)–chloranilate: design and characterization

et al. 2016

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A series of six novel mononuclear, binuclear and linear one-dimensional (1D) compounds of copper(II) with chloranilic acid (3,6-dichloro-2,5-dihydroxybenzoquinone, H 2 CA) is prepared and a design strategy for the preparation of such complexes is discussed. Four described compounds are linear 1D coordination polymers [Cu(CA)] n , whereas another two involve a binuclear and a mononuclear, Cu 2 (CA) 3 and Cu(CA) 2 , core unit. A linear polymer incorporating bulky aromatic imidazole has been synthesized as a result of investigation of the influence of pH on the reaction mixture. Two coordination modes of the chloranilate dianion are observed. The bridging (bis)bidentate mode generates linear 1D polymeric species. Among these one reveals square-pyramidal coordination of Cu 2+ , whereas the three polymers contain Cu 2+ in an octahedral arrangement. However, the combination of both, terminal bidentate (ortho-quinone) and bridging (bis)bidentate modes of coordination produces a binuclear complex anion, which comprises a square-pyramidal coordination of Cu 2+ complex anions forming a supramolecular honeycomb-like network encapsulating 4,4 0 -bipyridine cations. When the chloranilate dianion coordinates the Cu 2+ atom only in a terminal bidentate mode, a mononuclear complex with an octahedral environment of the metal centre is formed. The presence of the bulky ancillary ligand imidazole produces an unprecedented packing involving chiral (racemic) and achiral (meso-compound) coordination polymers in the same crystal. Electron spin resonance spectroscopy of polycrystalline samples determined g-tensor parameters of copper(II) ions in different coordination geometries and revealed weak exchange interactions (|J| < 1 cm À1 ) in linear metal-complex polymers and dimeric species.

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“…As far as hydrogen bond mediated self‐assembly systems are concerned, very little attention have been paid to the oxalamide derivatives, despite their high ability to participate in hydrogen bonding and rigid conformation. Indeed, oxalamide derivatives, due to their self‐complementary hydrogen bonding interactions ability, have been used successfully in materials science, in protein engineering and for designing homo‐ and heterometallic complexes . Compared with the amide group, the oxalamide (‐NH‐CO‐CO‐NH‐) group possesses elegant hydrogen‐bond‐forming capacity between ‐C=O and ‐NH units.…”

Section: Introductionmentioning

confidence: 99%

Self‐Complementary Dimers of Oxalamide‐Functionalized Resorcinarene Tetrabenzoxazines

Džolić

Beyeh

Cetina

et al. 2017

Chemistry An Asian Journal

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Self-complementarity is a useful concept in supramolecular chemistry, molecular biology and polymeric systems. Two resorcinarene tetrabenzoxazines decorated with four oxalamide groups were synthesized and characterized. The oxalamide groups possessed self-complementary hydrogen bonding sites between the carbonyls and amide groups. The self-complementary nature of the oxalamide groups resulted in self-included dimeric assemblies. The hydrogen bonding interactions within the tetrabenzoxazines gave rise to the formation of dimers, which were confirmed by single-crystal X-ray diffractions analysis and supported by NMR spectroscopy and mass spectrometry. The self-included dimers were connected by numerous and strong intermolecular N-H⋅⋅⋅O and C-H⋅⋅⋅O hydrogen bonds supplemented with C-H⋅⋅⋅π interactions, forming one-dimensional polymers, which were then further linked into three-dimensional networks.

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Crystal structures and magnetic properties of a set of dihalo-bridged oxalamidato copper(ii) dimers

Cited by 28 publications

References 83 publications

Magnetostructural Characterization of Oxalamide Dihalo‐Bridged Copper Dimers: Intra‐ and Interdimer Interactions Studied by Single‐Crystal Electron Spin Resonance Spectroscopy

Magnetostructural Characterization of Oxalamide Dihalo‐Bridged Copper Dimers: Intra‐ and Interdimer Interactions Studied by Single‐Crystal Electron Spin Resonance Spectroscopy

From mononuclear to linear one-dimensional coordination species of copper(ii)–chloranilate: design and characterization

Self‐Complementary Dimers of Oxalamide‐Functionalized Resorcinarene Tetrabenzoxazines

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