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Ligand Backbone Influence on the Enantioselectivity in the Ruthenium‐Catalyzed Direct Asymmetric Reductive Amination of Ketones with NH3/H2 Using Binaphthyl‐Substituted Phosphines

The influence of the ligand backbone on the enantioselectivity in the ruthenium‐catalyzed direct asymmetric reductive amination of acetophenone with NH3 and H2, using bidentate binaphthyl‐substituted phosphine ligands, was investigated in a combined computational and experimental study. A model for...

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Published in:	ChemCatChem 2022-10, Vol.14 (20), p.n/a
Main Authors:	Menche, Maximilian, Klein, Philippe, Hermsen, Marko, Konrath, Robert, Ghosh, Tamal, Wysocki, Jedrzej, Ernst, Martin, Hashmi, A. Stephen K., Schäfer, Ansgar, Comba, Peter, Schaub, Thomas
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Language:	English
Subjects:	Acetophenone Ammonia asymmetric amination Asymmetry Atomic properties computational chemistry Enantiomers Ketones ligand design Ligands mechanism Phosphines Ruthenium Substitutes Substrates
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description	The influence of the ligand backbone on the enantioselectivity in the ruthenium‐catalyzed direct asymmetric reductive amination of acetophenone with NH3 and H2, using bidentate binaphthyl‐substituted phosphine ligands, was investigated in a combined computational and experimental study. A model for the bite angle dependence of the enantiomeric excess (ee) when using diphosphines bearing binaphthyl‐groups on the P‐atoms was developed. This revealed a significant potential for increasing the enantioselectivity, if ligands with a larger bite angle than the previously reported (S,S)‐f‐binaphane are used. Suitable backbone candidates were selected from more than one million structures provided by the Cambridge Structural Database (CCDC‐CSD) and the most promising candidates were synthesized accordingly. Despite all efforts, an increase of the ee was not possible with this approach. The larger backbones resulted in the preference of different ligand coordination modes avoiding the formation of the more strongly enantiodiscriminant substrate pocket between the naphthyl wings. Ligand design: The bite angle influence on the enantioselectivity in the ruthenium‐catalyzed direct asymmetric reductive amination of acetophenone with NH3 and H2 using bidentate binaphthyl‐substituted phosphine ligands was investigated in a combined computational and experimental ligand design study. While the investigation reveals a high potential for this approach, it also highlights its challenges.
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Suitable backbone candidates were selected from more than one million structures provided by the Cambridge Structural Database (CCDC‐CSD) and the most promising candidates were synthesized accordingly. Despite all efforts, an increase of the ee was not possible with this approach. The larger backbones resulted in the preference of different ligand coordination modes avoiding the formation of the more strongly enantiodiscriminant substrate pocket between the naphthyl wings. Ligand design: The bite angle influence on the enantioselectivity in the ruthenium‐catalyzed direct asymmetric reductive amination of acetophenone with NH3 and H2 using bidentate binaphthyl‐substituted phosphine ligands was investigated in a combined computational and experimental ligand design study. 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Stephen K.</creatorcontrib><creatorcontrib>Schäfer, Ansgar</creatorcontrib><creatorcontrib>Comba, Peter</creatorcontrib><creatorcontrib>Schaub, Thomas</creatorcontrib><title>Ligand Backbone Influence on the Enantioselectivity in the Ruthenium‐Catalyzed Direct Asymmetric Reductive Amination of Ketones with NH3/H2 Using Binaphthyl‐Substituted Phosphines</title><title>ChemCatChem</title><description>The influence of the ligand backbone on the enantioselectivity in the ruthenium‐catalyzed direct asymmetric reductive amination of acetophenone with NH3 and H2, using bidentate binaphthyl‐substituted phosphine ligands, was investigated in a combined computational and experimental study. A model for the bite angle dependence of the enantiomeric excess (ee) when using diphosphines bearing binaphthyl‐groups on the P‐atoms was developed. This revealed a significant potential for increasing the enantioselectivity, if ligands with a larger bite angle than the previously reported (S,S)‐f‐binaphane are used. Suitable backbone candidates were selected from more than one million structures provided by the Cambridge Structural Database (CCDC‐CSD) and the most promising candidates were synthesized accordingly. Despite all efforts, an increase of the ee was not possible with this approach. The larger backbones resulted in the preference of different ligand coordination modes avoiding the formation of the more strongly enantiodiscriminant substrate pocket between the naphthyl wings. Ligand design: The bite angle influence on the enantioselectivity in the ruthenium‐catalyzed direct asymmetric reductive amination of acetophenone with NH3 and H2 using bidentate binaphthyl‐substituted phosphine ligands was investigated in a combined computational and experimental ligand design study. While the investigation reveals a high potential for this approach, it also highlights its challenges.</description><subject>Acetophenone</subject><subject>Ammonia</subject><subject>asymmetric amination</subject><subject>Asymmetry</subject><subject>Atomic properties</subject><subject>computational chemistry</subject><subject>Enantiomers</subject><subject>Ketones</subject><subject>ligand design</subject><subject>Ligands</subject><subject>mechanism</subject><subject>Phosphines</subject><subject>Ruthenium</subject><subject>Substitutes</subject><subject>Substrates</subject><issn>1867-3880</issn><issn>1867-3899</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2022</creationdate><recordtype>article</recordtype><sourceid/><recordid>eNo9UUlOwzAUjRBIjFvWllgXPGSwl20oFFEBArqOXOenMSROiB1QWHEEbsN9OAmuirr5g_4bpP-C4JTgc4IxvVDKqXOKKcU4CtlOcEB4nIwYF2J3O3O8Hxxa-4JxLFgSHQQ_c72SJkcTqV6XjQF0Y4qqB6MANQa5EtDUSON0Y6EC5fS7dgPSm8tj76vRff379Z1KJ6vhE3J0qTsPRGM71DW4Tiv0CHm_pgIa19pIL2ZQU6BbcN7Qog_tSnQ3YxczihZWmxWaeFRbunKovPJTv7ROu9557YeysW2pPes42CtkZeHkvx8Fi6vpczobze-vb9LxfNSSkLNRAQlLeIIpD6OQh5xQyCO1ZIqIiMZxQooYszDinKlcAqZLLqjEgggm4jiijB0FZxvdtmveerAue2n6znjLjCY0Fti_MfQosUF96AqGrO10LbshIzhbJ5Otk8m2yWRp-pxuN_YHS4iInQ</recordid><startdate>20221021</startdate><enddate>20221021</enddate><creator>Menche, Maximilian</creator><creator>Klein, Philippe</creator><creator>Hermsen, Marko</creator><creator>Konrath, Robert</creator><creator>Ghosh, Tamal</creator><creator>Wysocki, Jedrzej</creator><creator>Ernst, Martin</creator><creator>Hashmi, A. 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subjects	Acetophenone Ammonia asymmetric amination Asymmetry Atomic properties computational chemistry Enantiomers Ketones ligand design Ligands mechanism Phosphines Ruthenium Substitutes Substrates
title	Ligand Backbone Influence on the Enantioselectivity in the Ruthenium‐Catalyzed Direct Asymmetric Reductive Amination of Ketones with NH3/H2 Using Binaphthyl‐Substituted Phosphines
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