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Metal-Organic Porous Coordination Polymers

Recently, porous coordination polymers (PCPs), prepared using self-assembling processes from metal ions and organic ligands, have attracted much attention because of their wide applications in gas storage, molecular recognition and separation, and catalysis, utilizing their crystalline, robust - yet flexible - porous... [Pg.1017]

Metal ions Organic ligands Porous coordination polymers ... [Pg.1018]

Abstract Porous coordination polymers prepared via the self-assembly of metal ions and organic ligands have attracted considerable attention because of their potential applications in storage, separation, and catalytic systems. The use of their regulated nanochannels as the fields for polymerization can allow for precise control over the polymer structures. In addition, the confinement of polymer chains in the nanochannels allows for the formation of unique nanocomposites that show unprecedented and interesting dynamic, optical, and electronic properties. [Pg.41]

Hermes S, Schroter MK, Schmid R, Khodeir L, Muhler M, Tissler A, et al. Metal MOF loading of highly porous coordination polymers host lattices by metal organic chemical vapor deposition. Angew Chem, Int Ed 2005 44 6237-41. [Pg.338]

Keywords Charge transfer Chemical sensor Energy transfer Metal-organic frameworks Porous coordination polymers Structural transformation... [Pg.168]

Keywords Gas sorption Metal-organic framework Porous coordination polymer Self-assembly... [Pg.86]

Porous Coordination Polymer Nanoparticles and Macrostructures Metal-Organic Frameworks in Mixed-Matrix Membranes Patterning Techniques for Metal-Organic Frameworks ... [Pg.34]

Porous Coordination Polymer Nanoparticles and Macrostructures Synthesis and Structures of Aluminum-Based Metal-Organic Frameworks Gas Storage in... [Pg.190]

MOFs [also known as porous coordination networks (PCNs) or porous coordination polymers] are essentially three-dimensional coordination polymers in which the metallic centers are connected by polytopic organic linkers. Provided that the organic linkers possess a certain degree of rigidity, the resulting framework usually exhibits a permanent inner porosity (i.e., pores remain intact and accessible to guest molecules) on the removal... [Pg.283]


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Coordinating polymers

Coordination organization

Metal coordination polymers

Metal-organic coordination polymers

Metal-organic polymers

Organic polymers

Polymer coordination

Polymers coordinated

Porous coordination polymer

Porous organic polymers

Porous polymers

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