Two complexes isolated from solutions under solvothermal conditions: [CuCl2(C5H14N2)2]·4 H2O with the copper complex enwrapped in a unique self-assembled water layer of fused H2O decamers and [Co(CO3)(C5H14N2)2]Cl·H2O with the cobalt complex fixed in an extended hydrogen bond network

Wutkowski, Adam; Näther, Christian; Bensch, Wolfgang

doi:10.1016/j.ica.2011.09.007

Cited by 11 publications

(2 citation statements)

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“…As regards the arrangement of six H 2 O molecules (two aqua and four water) that pair two Cu II (HTEN) 2 entities, it has to be noticed that such a connection between coordination molecules has been found and reported for the first time (at our knowledge). Sheets of six-and ten-member rings of water molecules that are sandwiched by coordination molecules have recently been found [25] but the metals are not covalently connected to the water rings.…”

Section: Discussionmentioning

confidence: 99%

Synthesis, and Electrochemical and Density Functional Studies of New Copper(II)‐ and Manganese(II) Oxicam Drugs. Redox Potentials and MOs Compatible with SOD‐like Activity and Unusual Six‐membered Rings of Water Molecules Bridging Complex Units

Tamasi

Corsini

Cini

2014

Zeitschrift anorg allge chemie

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Section: Discussionmentioning

confidence: 99%

Synthesis, and Electrochemical and Density Functional Studies of New Copper(II)‐ and Manganese(II) Oxicam Drugs. Redox Potentials and MOs Compatible with SOD‐like Activity and Unusual Six‐membered Rings of Water Molecules Bridging Complex Units

Tamasi

Corsini

Cini

2014

Zeitschrift anorg allge chemie

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“…found in a number of crystal hosts, have been extensively investigated. [57][58][59][60][61][62][63] A useful approach to the stabilization of water molecule aggregations is their capture within transition metal complex lattices formed by crystallization from aqueous solution. 57,[64][65][66][67][68][69][70][71][72][73][74][75][76][77] To study the supramolecular architecture of transition metal complexes in its solid state structure is receiving immense attention now-a-days.…”

Section: Introductionmentioning

confidence: 99%

Formation of H-bonding networks in the solid state structure of a trinuclear cobalt(iii/ii/iii) complex with N₂O₂ donor Schiff base ligand and glutaric acid as bridging co-ligand: synthesis, structure and DFT study

Maity,

Bhunia,

Drew

et al. 2024

RSC Adv.

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New Water‐Soluble Cluster Compound {Zn(en)₃}₃[V₁₅Sb₆O₄₂(H₂O)]⋅ (Ethylenediamine)₃⋅10 H₂O as a Synthon for the Generation of Two New Antimonato Polyoxovanadates

Mahnke

Warzok

Lin

et al. 2018

Chemistry A European J

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A new antimonato polyoxovanadate {Zn(en) } [V Sb O (H O)]⋅3 en⋅10 H O (en=ethylenediamine) synthesized under hydrothermal conditions exhibits remarkable solubility in water. Electrospray ionization mass spectrometry (ESI-MS) investigations on an aqueous solution demonstrate that the cluster core remains fully intact for 72 h. At longer times, slow transformation into a {V Sb O } cluster is observed. The conversion reaches 50 % after 14 days and is complete after approximately 20 days. The rate of this {V Sb }→{V Sb } cluster transformation is significantly increased in the presence of ammonium acetate. Applying the new compound as a synthon in the presence of 1,10-phenanthroline (phen) led to crystallization of {Zn(phen) } [Zn(en) V Sb O (H O)]⋅23 H O after a short reaction time, whereas addition of Sb O led to fast crystallization of {(Zn(en) (H O) )(Zn(en) )}[Zn(en) V Sb O (H O)] ⋅8.5 H O. In the crystal structure of {Zn(en) } [V Sb O (H O)]⋅3 en⋅10 H O, the en molecules are seen to be attached to the cluster anion through Sb-N bonds. In the structures of the two new compounds obtained, the [V Sb O (H O)] anions are expanded by Zn -centered complexes through Zn-O-V bond formation.

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Two complexes isolated from solutions under solvothermal conditions: [CuCl2(C5H14N2)2]·4 H2O with the copper complex enwrapped in a unique self-assembled water layer of fused H2O decamers and [Co(CO3)(C5H14N2)2]Cl·H2O with the cobalt complex fixed in an extended hydrogen bond network

Cited by 11 publications

References 65 publications

Synthesis, and Electrochemical and Density Functional Studies of New Copper(II)‐ and Manganese(II) Oxicam Drugs. Redox Potentials and MOs Compatible with SOD‐like Activity and Unusual Six‐membered Rings of Water Molecules Bridging Complex Units

Synthesis, and Electrochemical and Density Functional Studies of New Copper(II)‐ and Manganese(II) Oxicam Drugs. Redox Potentials and MOs Compatible with SOD‐like Activity and Unusual Six‐membered Rings of Water Molecules Bridging Complex Units

Formation of H-bonding networks in the solid state structure of a trinuclear cobalt(iii/ii/iii) complex with N₂O₂ donor Schiff base ligand and glutaric acid as bridging co-ligand: synthesis, structure and DFT study

New Water‐Soluble Cluster Compound {Zn(en)₃}₃[V₁₅Sb₆O₄₂(H₂O)]⋅ (Ethylenediamine)₃⋅10 H₂O as a Synthon for the Generation of Two New Antimonato Polyoxovanadates

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Two complexes isolated from solutions under solvothermal conditions: [CuCl2(C5H14N2)2]·4 H2O with the copper complex enwrapped in a unique self-assembled water layer of fused H2O decamers and [Co(CO3)(C5H14N2)2]Cl·H2O with the cobalt complex fixed in an extended hydrogen bond network

Cited by 11 publications

References 65 publications

Synthesis, and Electrochemical and Density Functional Studies of New Copper(II)‐ and Manganese(II) Oxicam Drugs. Redox Potentials and MOs Compatible with SOD‐like Activity and Unusual Six‐membered Rings of Water Molecules Bridging Complex Units

Synthesis, and Electrochemical and Density Functional Studies of New Copper(II)‐ and Manganese(II) Oxicam Drugs. Redox Potentials and MOs Compatible with SOD‐like Activity and Unusual Six‐membered Rings of Water Molecules Bridging Complex Units

Formation of H-bonding networks in the solid state structure of a trinuclear cobalt(iii/ii/iii) complex with N2O2 donor Schiff base ligand and glutaric acid as bridging co-ligand: synthesis, structure and DFT study

New Water‐Soluble Cluster Compound {Zn(en)3}3[V15Sb6O42(H2O)]⋅ (Ethylenediamine)3⋅10 H2O as a Synthon for the Generation of Two New Antimonato Polyoxovanadates

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Formation of H-bonding networks in the solid state structure of a trinuclear cobalt(iii/ii/iii) complex with N₂O₂ donor Schiff base ligand and glutaric acid as bridging co-ligand: synthesis, structure and DFT study

New Water‐Soluble Cluster Compound {Zn(en)₃}₃[V₁₅Sb₆O₄₂(H₂O)]⋅ (Ethylenediamine)₃⋅10 H₂O as a Synthon for the Generation of Two New Antimonato Polyoxovanadates