Oxidative Polymerization of 1,4-Diethynylbenzene into Highly Conjugated Poly(phenylene butadiynylene) within the Channels of Surface-Functionalized Mesoporous Silica and Alumina Materials - Concepedia

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Oxidative Polymerization of 1,4-Diethynylbenzene into Highly Conjugated Poly(phenylene butadiynylene) within the Channels of Surface-Functionalized Mesoporous Silica and Alumina Materials

129

Citations

10

References

2002

Year

Victor S.‐Y. Lin, Daniela R. Radu, Mi‐Kyung Han, Weihua Deng, Shigeki Kuroki, Brent H. Shanks, Marek Pruski

Journal of the American Chemical Society

EngineeringNanoporous MaterialNanostructured PolymerHighly Conjugated PolyPorous PolymerOrganic ChemistryOxidative PolymerizationChemistryMolecular WirePolymersChemical EngineeringPolymer ChemistryMaterials SciencePolyalkynylene-based Conducting PolymerMolecular SieveAlumina MaterialsPolymer EngineeringCatalysisMolecular EngineeringPore DiameterNanomaterialsPolymer SciencePolymerization KineticsFunctional MaterialsPolymer SynthesisOrganic-inorganic Hybrid Material

Abstract

A polyalkynylene-based conducting polymer (molecular wire) has been synthesized within the Cu-functionalized mesoporous MCM-41 silica catalyst. Fluorescence and 13C solid-state NMR provided spectroscopic evidence that the synthesis of extended polymeric chains with a high degree of alignment requires homogeneously distributed catalytic sites throughout the entire MCM matrix. This type of homogeneity has been achieved via co-condensation of the catalytic groups in narrow pores. In addition, our results indicated that proper adjustment of the pore diameter is vital to prevent clogging of the pores with aggregated or cross-linked polymers or both.

References

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