Controlled immobilization of palladium nanoparticles in two different fluorinated polymeric aggregate cores and their application in catalysis

Fluoroalkyl end-capped betaine-type cooligomeric nanocomposites-immobilized palladium nanoparticles were prepared by the reactions of palladium chloride with sodium acetate in the presence of sodium chloride and the corresponding fluorinated cooligomers. Outer blocks of poly(2,3,4,5,6-pentafluorosty...

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Veröffentlicht in:	Colloid and polymer science 2012-05, Vol.290 (7), p.589-597
Hauptverfasser:	Kijima, Tetsushi, Javakhishvili, Irakli, Jankova, Katja, Hvilsted, Søren, Kodama, Shun, Sugiya, Masashi, Sawada, Hideo
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Sprache:	eng
Schlagworte:	Applied sciences Catalysis Catalysts: preparations and properties Characterization and Evaluation of Materials Chemistry Chemistry and Materials Science Complex Fluids and Microfluidics Composites Exact sciences and technology Food Science Forms of application and semi-finished materials General and physical chemistry Nanotechnology and Microengineering Organic polymers Original Contribution Physical Chemistry Physicochemistry of polymers Polymer industry, paints, wood Polymer Sciences Properties and characterization Soft and Granular Matter Special properties (catalyst, reagent or carrier) Technology of polymers Theory of reactions, general kinetics. Catalysis. Nomenclature, chemical documentation, computer chemistry
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container_title	Colloid and polymer science
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creator	Kijima, Tetsushi Javakhishvili, Irakli Jankova, Katja Hvilsted, Søren Kodama, Shun Sugiya, Masashi Sawada, Hideo
description	Fluoroalkyl end-capped betaine-type cooligomeric nanocomposites-immobilized palladium nanoparticles were prepared by the reactions of palladium chloride with sodium acetate in the presence of sodium chloride and the corresponding fluorinated cooligomers. Outer blocks of poly(2,3,4,5,6-pentafluorostyrene)-containing ABA-triblock copolymeric nanocomposites-immobilized palladium nanoparticles were prepared by the use of the corresponding block copolymers under similar conditions. TEM images showed that palladium nanoparticles can be immobilized outside the fluorinated cooligomeric nanocomposite cores; in contrast, palladium nanoparticles can be effectively immobilized inside these fluorinated ABA-triblock copolymeric nanocomposite cores. Thus, these two different fluorinated copolymers enabled the controlled immobilization of palladium nanoparticles in the fluorinated nanocomposite cores. These fluorinated nanocomposites-immobilized palladium nanoparticles were also applied to the catalysts for Suzuki-Miyaura cross-coupling reaction, and the different reactivity between these nanocomposites was observed. Figure Controlled immobilization of palladium nanoparticles in two different flourinated nanocomposite cores was observed. Palladium nanoparticles were immobilized onto fluorinated betaine-type cooligomeric nanocomposite cores; in contrast, palladium nanoparticles were effectively immobilized inside poly(2,3,4,5-pentafluorostyrene)-containing copolymeric nanocomposite cores. These fluorinated nanocomposites-immobilized palladium nanoparticles were applied to the catalysts for Suzuki-Miyaura cross-coupling reaction
doi_str_mv	10.1007/s00396-011-2567-9
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Outer blocks of poly(2,3,4,5,6-pentafluorostyrene)-containing ABA-triblock copolymeric nanocomposites-immobilized palladium nanoparticles were prepared by the use of the corresponding block copolymers under similar conditions. TEM images showed that palladium nanoparticles can be immobilized outside the fluorinated cooligomeric nanocomposite cores; in contrast, palladium nanoparticles can be effectively immobilized inside these fluorinated ABA-triblock copolymeric nanocomposite cores. Thus, these two different fluorinated copolymers enabled the controlled immobilization of palladium nanoparticles in the fluorinated nanocomposite cores. These fluorinated nanocomposites-immobilized palladium nanoparticles were also applied to the catalysts for Suzuki-Miyaura cross-coupling reaction, and the different reactivity between these nanocomposites was observed. Figure Controlled immobilization of palladium nanoparticles in two different flourinated nanocomposite cores was observed. Palladium nanoparticles were immobilized onto fluorinated betaine-type cooligomeric nanocomposite cores; in contrast, palladium nanoparticles were effectively immobilized inside poly(2,3,4,5-pentafluorostyrene)-containing copolymeric nanocomposite cores. 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Outer blocks of poly(2,3,4,5,6-pentafluorostyrene)-containing ABA-triblock copolymeric nanocomposites-immobilized palladium nanoparticles were prepared by the use of the corresponding block copolymers under similar conditions. TEM images showed that palladium nanoparticles can be immobilized outside the fluorinated cooligomeric nanocomposite cores; in contrast, palladium nanoparticles can be effectively immobilized inside these fluorinated ABA-triblock copolymeric nanocomposite cores. Thus, these two different fluorinated copolymers enabled the controlled immobilization of palladium nanoparticles in the fluorinated nanocomposite cores. These fluorinated nanocomposites-immobilized palladium nanoparticles were also applied to the catalysts for Suzuki-Miyaura cross-coupling reaction, and the different reactivity between these nanocomposites was observed. Figure Controlled immobilization of palladium nanoparticles in two different flourinated nanocomposite cores was observed. Palladium nanoparticles were immobilized onto fluorinated betaine-type cooligomeric nanocomposite cores; in contrast, palladium nanoparticles were effectively immobilized inside poly(2,3,4,5-pentafluorostyrene)-containing copolymeric nanocomposite cores. 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Outer blocks of poly(2,3,4,5,6-pentafluorostyrene)-containing ABA-triblock copolymeric nanocomposites-immobilized palladium nanoparticles were prepared by the use of the corresponding block copolymers under similar conditions. TEM images showed that palladium nanoparticles can be immobilized outside the fluorinated cooligomeric nanocomposite cores; in contrast, palladium nanoparticles can be effectively immobilized inside these fluorinated ABA-triblock copolymeric nanocomposite cores. Thus, these two different fluorinated copolymers enabled the controlled immobilization of palladium nanoparticles in the fluorinated nanocomposite cores. These fluorinated nanocomposites-immobilized palladium nanoparticles were also applied to the catalysts for Suzuki-Miyaura cross-coupling reaction, and the different reactivity between these nanocomposites was observed. Figure Controlled immobilization of palladium nanoparticles in two different flourinated nanocomposite cores was observed. Palladium nanoparticles were immobilized onto fluorinated betaine-type cooligomeric nanocomposite cores; in contrast, palladium nanoparticles were effectively immobilized inside poly(2,3,4,5-pentafluorostyrene)-containing copolymeric nanocomposite cores. These fluorinated nanocomposites-immobilized palladium nanoparticles were applied to the catalysts for Suzuki-Miyaura cross-coupling reaction</abstract><cop>Berlin/Heidelberg</cop><pub>Springer-Verlag</pub><doi>10.1007/s00396-011-2567-9</doi><tpages>9</tpages></addata></record>
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subjects	Applied sciences Catalysis Catalysts: preparations and properties Characterization and Evaluation of Materials Chemistry Chemistry and Materials Science Complex Fluids and Microfluidics Composites Exact sciences and technology Food Science Forms of application and semi-finished materials General and physical chemistry Nanotechnology and Microengineering Organic polymers Original Contribution Physical Chemistry Physicochemistry of polymers Polymer industry, paints, wood Polymer Sciences Properties and characterization Soft and Granular Matter Special properties (catalyst, reagent or carrier) Technology of polymers Theory of reactions, general kinetics. Catalysis. Nomenclature, chemical documentation, computer chemistry
title	Controlled immobilization of palladium nanoparticles in two different fluorinated polymeric aggregate cores and their application in catalysis
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