Self-assembling Properties of an N-Heterocyclic Carbene-based Metallosurfactant: Pd-Coordination Induced Formation of Reactive Interfaces in Water

In this study, an N-heterocyclic carbene (NHC)-based metallosurfactant (MS), NHC-PdMS, was synthesized, where Pd(II) was bound to the NHC framework via a robust Pd–carbene bond with NEt3 as a co-ligand. Surface tension measurements revealed that the critical micelle concentration (CMC) of NHC-PdMS (...

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Veröffentlicht in:	Journal of Oleo Science 2018, Vol.67(9), pp.1107-1115
Hauptverfasser:	Taira, Toshiaki, Yanagimoto, Takaya, Sakai, Kenichi, Sakai, Hideki, Endo, Akira, Imura, Tomohiro
Format:	Artikel
Sprache:	eng
Schlagworte:	Aromatic compounds Catalysis Coordination Iodides liquid crystal Liquid crystals metallosurfactant Micelles Mizoroki-Heck reaction N-heterocyclic carbene Organic chemistry palladium Precursors Small angle X ray scattering Surface tension
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container_title	Journal of Oleo Science
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creator	Taira, Toshiaki Yanagimoto, Takaya Sakai, Kenichi Sakai, Hideki Endo, Akira Imura, Tomohiro
description	In this study, an N-heterocyclic carbene (NHC)-based metallosurfactant (MS), NHC-PdMS, was synthesized, where Pd(II) was bound to the NHC framework via a robust Pd–carbene bond with NEt3 as a co-ligand. Surface tension measurements revealed that the critical micelle concentration (CMC) of NHC-PdMS (1.8×10–4 M) was one order of magnitude lower than that of its MS precursor (imidazolium bromide). Coordination of the MS precursor and NEt3 to Pd(II) also influenced micelle size; the hydrodynamic diameters of NHC-PdMS and the MS precursor were observed to be 25.8±5.6 nm and 2.5±0.3 nm, respectively. Furthermore, small angle X-ray scattering measurements indicated that NHC-PdMS exhibited liquid crystalline behavior above 26 wt%, with a spacing ratio of 1:2:3 for the first, second, and third Bragg peaks. To understand the role of the reactive interface, NHC-PdMS was also applied to aqueous catalytic reactions. Owing to its low CMC value, a catalytic amount of NHC-PdMS (3 mol%) provided the reactive interface, which facilitated the aqueous Mizoroki–Heck reaction of various aryl iodides and styrene in good yields (72–95%). These results suggest that MS formation results in a drastic change in selfassembling properties, which are important for the development of highly reactive chemical interfaces in water.
doi_str_mv	10.5650/jos.ess18052
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Surface tension measurements revealed that the critical micelle concentration (CMC) of NHC-PdMS (1.8×10–4 M) was one order of magnitude lower than that of its MS precursor (imidazolium bromide). Coordination of the MS precursor and NEt3 to Pd(II) also influenced micelle size; the hydrodynamic diameters of NHC-PdMS and the MS precursor were observed to be 25.8±5.6 nm and 2.5±0.3 nm, respectively. Furthermore, small angle X-ray scattering measurements indicated that NHC-PdMS exhibited liquid crystalline behavior above 26 wt%, with a spacing ratio of 1:2:3 for the first, second, and third Bragg peaks. To understand the role of the reactive interface, NHC-PdMS was also applied to aqueous catalytic reactions. Owing to its low CMC value, a catalytic amount of NHC-PdMS (3 mol%) provided the reactive interface, which facilitated the aqueous Mizoroki–Heck reaction of various aryl iodides and styrene in good yields (72–95%). 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Surface tension measurements revealed that the critical micelle concentration (CMC) of NHC-PdMS (1.8×10–4 M) was one order of magnitude lower than that of its MS precursor (imidazolium bromide). Coordination of the MS precursor and NEt3 to Pd(II) also influenced micelle size; the hydrodynamic diameters of NHC-PdMS and the MS precursor were observed to be 25.8±5.6 nm and 2.5±0.3 nm, respectively. Furthermore, small angle X-ray scattering measurements indicated that NHC-PdMS exhibited liquid crystalline behavior above 26 wt%, with a spacing ratio of 1:2:3 for the first, second, and third Bragg peaks. To understand the role of the reactive interface, NHC-PdMS was also applied to aqueous catalytic reactions. Owing to its low CMC value, a catalytic amount of NHC-PdMS (3 mol%) provided the reactive interface, which facilitated the aqueous Mizoroki–Heck reaction of various aryl iodides and styrene in good yields (72–95%). These results suggest that MS formation results in a drastic change in selfassembling properties, which are important for the development of highly reactive chemical interfaces in water.</description><subject>Aromatic compounds</subject><subject>Catalysis</subject><subject>Coordination</subject><subject>Iodides</subject><subject>liquid crystal</subject><subject>Liquid crystals</subject><subject>metallosurfactant</subject><subject>Micelles</subject><subject>Mizoroki-Heck reaction</subject><subject>N-heterocyclic carbene</subject><subject>Organic chemistry</subject><subject>palladium</subject><subject>Precursors</subject><subject>Small angle X ray scattering</subject><subject>Surface tension</subject><issn>1345-8957</issn><issn>1347-3352</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2018</creationdate><recordtype>article</recordtype><recordid>eNpFkU1v1DAQhiMEoqVw44wicSXFjmM74QYr-iEVqPgQR2vWHpdEWXuxE6T-jf7izjbd5TJjzzzzzmimKF5zdiqVZO-HmE8xZ94yWT8pjrlodCWErJ8-vGXVdlIfFS9yHhijuNTPiyPBuJZaqePi7geOvoKccbMe-3BTXqe4xTT1mMvoSwjl1-oCJ0zR3tqxt-UK0hoDVmvI6MovOME4xjwnD3aCMH0or121ijG5PsDUx1BeBjdbQs9i2iwR0v2OhPf_kLKkTbXUrg_lb6Dfy-KZhzHjq0d_Uvw6-_xzdVFdfTu_XH28qqwSbKo0kx1ozbz3oDtgUgO3yvpWOdahRsE6WbfMOtE0qtXC00vJtkErrQMnxUnxdtHdpvh3xjyZIc4pUEtT16KWrVBdR9S7hbIp5pzQm23qN5BuDWdmdwCqymZ_AMLfPIrO6w26A7zfOAHnC0DZ3sIYA60d_7d2g44jkmTNeGsYU5p1O2c4Z5oMl4I3DW8FKX1alIY8wQ0eWgFdz474MJfSptuZ_XyHpP0DyWAQ96Gzsvg</recordid><startdate>2018</startdate><enddate>2018</enddate><creator>Taira, Toshiaki</creator><creator>Yanagimoto, Takaya</creator><creator>Sakai, Kenichi</creator><creator>Sakai, Hideki</creator><creator>Endo, Akira</creator><creator>Imura, Tomohiro</creator><general>Japan Oil Chemists' Society</general><general>Japan Science and Technology Agency</general><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>8FD</scope><scope>F28</scope><scope>FR3</scope></search><sort><creationdate>2018</creationdate><title>Self-assembling Properties of an N-Heterocyclic Carbene-based Metallosurfactant: Pd-Coordination Induced Formation of Reactive Interfaces in Water</title><author>Taira, Toshiaki ; 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Surface tension measurements revealed that the critical micelle concentration (CMC) of NHC-PdMS (1.8×10–4 M) was one order of magnitude lower than that of its MS precursor (imidazolium bromide). Coordination of the MS precursor and NEt3 to Pd(II) also influenced micelle size; the hydrodynamic diameters of NHC-PdMS and the MS precursor were observed to be 25.8±5.6 nm and 2.5±0.3 nm, respectively. Furthermore, small angle X-ray scattering measurements indicated that NHC-PdMS exhibited liquid crystalline behavior above 26 wt%, with a spacing ratio of 1:2:3 for the first, second, and third Bragg peaks. To understand the role of the reactive interface, NHC-PdMS was also applied to aqueous catalytic reactions. Owing to its low CMC value, a catalytic amount of NHC-PdMS (3 mol%) provided the reactive interface, which facilitated the aqueous Mizoroki–Heck reaction of various aryl iodides and styrene in good yields (72–95%). 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subjects	Aromatic compounds Catalysis Coordination Iodides liquid crystal Liquid crystals metallosurfactant Micelles Mizoroki-Heck reaction N-heterocyclic carbene Organic chemistry palladium Precursors Small angle X ray scattering Surface tension
title	Self-assembling Properties of an N-Heterocyclic Carbene-based Metallosurfactant: Pd-Coordination Induced Formation of Reactive Interfaces in Water
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