(PDF) Novel Cluster Coordination Polymers Based on

Novel Cluster Coordination Polymers Based on Tetranuclear Nest-Shaped [WOS3Cu3] Heterothiometallitic Secondary Building Units and 4, 4-Bipyridine Ligand

doi 10.1021/cg0606038.s003

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Ligand and Anion Effects on the Morphology of Aqueous Substructures Entrained Within One-Dimensional [CuL4X] Coordination Polymer Matrices (L = 2, 4-Bipyridine, 4-Phenylpyridine; X = SO42-, SiF62-)

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Amanote Research

Novel Cluster Coordination Polymers Based on Tetranuclear Nest-Shaped [WOS3Cu3] Heterothiometallitic Secondary Building Units and 4, 4-Bipyridine Ligand

doi 10.1021/cg0606038.s003

Full Text

Abstract

Date

Authors

Publisher

Related search

Rare Earth Coordination Polymers With Zeolite Topology Constructed From 4-Connected Building Units

Preparation of Comb-Shaped Supramolecular Polymers With Lamellar Structure by Self-Assembling of 4, 4-Bipyridine and Silver Alkylsulfonates.

Molecular and Multidimensional Organic-Inorganic Hybrids Based on Polyoxometalates and Copper Coordination Polymer With Mixed 4, 4-Bipyridine and 2, 2-Bipyridine Ligands

Three Novel Zinc(II) Sulfonate-Phosphonates With Tetranuclear or Hexanuclear Cluster Units

Novel 3D, 2D, and 0D First-Row Coordination Compounds With 4, 4-Bipyridine-N, N-Dioxide Incorporating Sulfur-Containing Anions

Novel 3D, 2D, and 0D First-Row Coordination Compounds With 4, 4-Bipyridine-N, N-Dioxide Incorporating Sulfur-Containing Anions

Synthesis and Characterization of a 3D Coordination Polymer Based on Trinuclear Triangular CuII as Secondary Building Units

Ligand and Anion Effects on the Morphology of Aqueous Substructures Entrained Within One-Dimensional [CuL4X] Coordination Polymer Matrices (L = 2, 4-Bipyridine, 4-Phenylpyridine; X = SO42-, SiF62-)

Ligand and Anion Effects on the Morphology of Aqueous Substructures Entrained Within One-Dimensional [CuL4X] Coordination Polymer Matrices (L = 2, 4-Bipyridine, 4-Phenylpyridine; X = SO42-, SiF62-)