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    RISS 인기검색어

      Halogen Bonding in Ring‐Substituted Group 10 POCOP Iodido Complexes with Iodine and Its Possible Role in Oxidative Addition

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      https://www.riss.kr/link?id=O119034497

      • 저자
      • 발행기관
      • 학술지명
      • 권호사항
      • 발행연도

        2018년

      • 작성언어

        -

      • Print ISSN

        1434-1948

      • Online ISSN

        1099-0682

      • 등재정보

        SCI;SCIE;SCOPUS

      • 자료형태

        학술저널

      • 수록면

        3913-3921   [※수록면이 p5 이하이면, Review, Columns, Editor's Note, Abstract 등일 경우가 있습니다.]

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      다국어 초록 (Multilingual Abstract)

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      한국어
      Halogen bonding (XB) of an isostructural series of complexes of the type [3,5‐tBu(tBuPOCOPtBu)MI] [3,5‐tBu2(tBuPOCOPtBu) = κ3‐C6H‐3,5‐(tBu)2‐2,6‐(OPtBu2)2; M = Ni, Pd, Pt] with iodine as XB donor was studied in the solid state. Co‐crystallization experiments afforded single crystals for all three XB systems [3,5‐tBu(tBuPOCOPtBu)NiI] (1‐I2), [3,5‐tBu(tBuPOCOPtBu)PdI] (2‐I2), and [3,5‐tBu(tBuPOCOPtBu)PtI] (3‐I2). Whereas in the case of 1‐I2, two molecules of I2 bind to the iodide ligand, complexes 2‐I2 and 3‐I2 are isostructural 1:1 adducts with almost orthogonal binding of I2 to the metal iodido acceptor. All adducts form zig‐zag chain structures where the pincer complexes act as bifunctional XB acceptors, forming XB interactions between metal iodide ligand and I2 as well as between the aryl backbone of the pincer ligand and the I2 XB donor. DFT studies were performed to analyze the electronic structure of the XB adducts. Halogen bonded adducts and related products of I2 coordination were examined as formal intermediates in oxidative addition of I2 to a metal(II) center. Computational data suggest that the herein described complexes do not play a role in this context.
      Isostructural POCOP pincer complexes of group 10 metals form strong halogen bonds with iodine with the nature of adducts formed being strongly dependent on the metal. DFT analysis of the adducts illustrate the electronic structures of these systems.
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      Halogen bonding (XB) of an isostructural series of complexes of the type [3,5‐tBu(tBuPOCOPtBu)MI] [3,5‐tBu2(tBuPOCOPtBu) = κ3‐C6H‐3,5‐(tBu)2‐2,6‐(OPtBu2)2; M = Ni, Pd, Pt] with iodine as XB donor was studied in the solid state. Co‐cry...

      Halogen bonding (XB) of an isostructural series of complexes of the type [3,5‐tBu(tBuPOCOPtBu)MI] [3,5‐tBu2(tBuPOCOPtBu) = κ3‐C6H‐3,5‐(tBu)2‐2,6‐(OPtBu2)2; M = Ni, Pd, Pt] with iodine as XB donor was studied in the solid state. Co‐crystallization experiments afforded single crystals for all three XB systems [3,5‐tBu(tBuPOCOPtBu)NiI] (1‐I2), [3,5‐tBu(tBuPOCOPtBu)PdI] (2‐I2), and [3,5‐tBu(tBuPOCOPtBu)PtI] (3‐I2). Whereas in the case of 1‐I2, two molecules of I2 bind to the iodide ligand, complexes 2‐I2 and 3‐I2 are isostructural 1:1 adducts with almost orthogonal binding of I2 to the metal iodido acceptor. All adducts form zig‐zag chain structures where the pincer complexes act as bifunctional XB acceptors, forming XB interactions between metal iodide ligand and I2 as well as between the aryl backbone of the pincer ligand and the I2 XB donor. DFT studies were performed to analyze the electronic structure of the XB adducts. Halogen bonded adducts and related products of I2 coordination were examined as formal intermediates in oxidative addition of I2 to a metal(II) center. Computational data suggest that the herein described complexes do not play a role in this context.
      Isostructural POCOP pincer complexes of group 10 metals form strong halogen bonds with iodine with the nature of adducts formed being strongly dependent on the metal. DFT analysis of the adducts illustrate the electronic structures of these systems.

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