Enantioselective Friedel−Crafts Alkylations Catalyzed by Bis(oxazolinyl)pyridine−Scandium(III) Triflate Complexes

The enantioselective Friedel−Crafts addition of a variety of indoles catalyzed by bis(oxazolinyl)pyridine−scandium(III) triflate complexes (Sc(III)−pybox) was accomplished utilizing a series of β-substituted α,β-unsaturated phosphonates and α,β-unsaturated 2-acyl imidazoles. The acyl phosphonate pro...

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Veröffentlicht in:	Journal of the American Chemical Society 2007-08, Vol.129 (32), p.10029-10041
Hauptverfasser:	Evans, David A, Fandrick, Keith R, Song, Hyun-Ji, Scheidt, Karl A, Xu, Risheng
Format:	Artikel
Sprache:	eng
Schlagworte:	Alkylation Catalysis Crystallography, X-Ray Imidazoles - chemical synthesis Imidazoles - chemistry Indoles - chemical synthesis Indoles - chemistry Mesylates - chemistry Models, Molecular Organophosphonates - chemistry Oxazoles - chemistry Pyridines - chemistry Pyrroles - chemistry Scandium - chemistry Stereoisomerism
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container_title	Journal of the American Chemical Society
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creator	Evans, David A Fandrick, Keith R Song, Hyun-Ji Scheidt, Karl A Xu, Risheng
description	The enantioselective Friedel−Crafts addition of a variety of indoles catalyzed by bis(oxazolinyl)pyridine−scandium(III) triflate complexes (Sc(III)−pybox) was accomplished utilizing a series of β-substituted α,β-unsaturated phosphonates and α,β-unsaturated 2-acyl imidazoles. The acyl phosphonate products were efficiently transformed into esters and amides, whereas the acyl imidazole adducts were converted to a broader spectrum of functionalities such as esters, amides, carboxylic acids, ketones, and aldehydes. The sense of stereoinduction and level of enantioselectivity were found to be functions of the size of the substrate employed, the substitution on the ligand, and the catalyst loading. Molecular modeling of the catalyst with the bound substrates was performed based on the crystal structures of the catalyst complexes and the sense of stereoinduction observed in the addition reaction. Nonlinear effects over a range of catalyst concentrations implicate a mononuclear complex as the active catalyst.
doi_str_mv	10.1021/ja072976i
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The acyl phosphonate products were efficiently transformed into esters and amides, whereas the acyl imidazole adducts were converted to a broader spectrum of functionalities such as esters, amides, carboxylic acids, ketones, and aldehydes. The sense of stereoinduction and level of enantioselectivity were found to be functions of the size of the substrate employed, the substitution on the ligand, and the catalyst loading. Molecular modeling of the catalyst with the bound substrates was performed based on the crystal structures of the catalyst complexes and the sense of stereoinduction observed in the addition reaction. 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Am. Chem. Soc</addtitle><description>The enantioselective Friedel−Crafts addition of a variety of indoles catalyzed by bis(oxazolinyl)pyridine−scandium(III) triflate complexes (Sc(III)−pybox) was accomplished utilizing a series of β-substituted α,β-unsaturated phosphonates and α,β-unsaturated 2-acyl imidazoles. The acyl phosphonate products were efficiently transformed into esters and amides, whereas the acyl imidazole adducts were converted to a broader spectrum of functionalities such as esters, amides, carboxylic acids, ketones, and aldehydes. The sense of stereoinduction and level of enantioselectivity were found to be functions of the size of the substrate employed, the substitution on the ligand, and the catalyst loading. Molecular modeling of the catalyst with the bound substrates was performed based on the crystal structures of the catalyst complexes and the sense of stereoinduction observed in the addition reaction. 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Am. Chem. Soc</addtitle><date>2007-08-15</date><risdate>2007</risdate><volume>129</volume><issue>32</issue><spage>10029</spage><epage>10041</epage><pages>10029-10041</pages><issn>0002-7863</issn><eissn>1520-5126</eissn><abstract>The enantioselective Friedel−Crafts addition of a variety of indoles catalyzed by bis(oxazolinyl)pyridine−scandium(III) triflate complexes (Sc(III)−pybox) was accomplished utilizing a series of β-substituted α,β-unsaturated phosphonates and α,β-unsaturated 2-acyl imidazoles. The acyl phosphonate products were efficiently transformed into esters and amides, whereas the acyl imidazole adducts were converted to a broader spectrum of functionalities such as esters, amides, carboxylic acids, ketones, and aldehydes. The sense of stereoinduction and level of enantioselectivity were found to be functions of the size of the substrate employed, the substitution on the ligand, and the catalyst loading. Molecular modeling of the catalyst with the bound substrates was performed based on the crystal structures of the catalyst complexes and the sense of stereoinduction observed in the addition reaction. Nonlinear effects over a range of catalyst concentrations implicate a mononuclear complex as the active catalyst.</abstract><cop>United States</cop><pub>American Chemical Society</pub><pmid>17658808</pmid><doi>10.1021/ja072976i</doi><tpages>13</tpages></addata></record>
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subjects	Alkylation Catalysis Crystallography, X-Ray Imidazoles - chemical synthesis Imidazoles - chemistry Indoles - chemical synthesis Indoles - chemistry Mesylates - chemistry Models, Molecular Organophosphonates - chemistry Oxazoles - chemistry Pyridines - chemistry Pyrroles - chemistry Scandium - chemistry Stereoisomerism
title	Enantioselective Friedel−Crafts Alkylations Catalyzed by Bis(oxazolinyl)pyridine−Scandium(III) Triflate Complexes
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