The Critical Role of Tilted Cinchona Surface Species for Enantioselective Hydrogenation

On chirally modified metal catalysts enantioselectivity is controlled by the molecular orientation of adsorbates at the chiral catalytic solid–liquid interface. To gain information on the surface coverage and to assess the enantioselecting ability of chiral modifiers depending on their molecular ori...

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Published in	ACS catalysis Vol. 7; no. 6; pp. 3799 - 3809
Main Authors	Rodríguez-García, Laura, Hungerbühler, Konrad, Baiker, Alfons, Meemken, Fabian
Format	Journal Article
Language	English
Published	American Chemical Society 02.06.2017
Subjects	solid−liquid interface heterogeneous catalysis chirally modified metals IR spectroscopy asymmetric hydrogenation operando spectroscopy cinchonine
Online Access	Get full text
ISSN	2155-5435 2155-5435
DOI	10.1021/acscatal.7b00324

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Abstract	On chirally modified metal catalysts enantioselectivity is controlled by the molecular orientation of adsorbates at the chiral catalytic solid–liquid interface. To gain information on the surface coverage and to assess the enantioselecting ability of chiral modifiers depending on their molecular orientation, we employed an operando spectroscopic technique using attenuated total reflection IR and UV–vis spectroscopy. Our study reveals that the enantiodifferentiation of the cinchona chiral modifier cinchonine varies significantly depending on its adsorption mode. In contrast to the prevailing mechanistic models, which imply that the most stable surface species is responsible for enantiodifferentiation, our results show that less stable cinchona species with a tilted aromatic ring anchor provide significantly stronger enantioselective control. As a consequence, the so-called anchoring moiety of the chiral modifier exceeds the mere function of adsorptive anchoring and its molecular orientation has to be also taken into account in explaining the observed enantioselectivity of chirally modified metals.
AbstractList	On chirally modified metal catalysts enantioselectivity is controlled by the molecular orientation of adsorbates at the chiral catalytic solid–liquid interface. To gain information on the surface coverage and to assess the enantioselecting ability of chiral modifiers depending on their molecular orientation, we employed an operando spectroscopic technique using attenuated total reflection IR and UV–vis spectroscopy. Our study reveals that the enantiodifferentiation of the cinchona chiral modifier cinchonine varies significantly depending on its adsorption mode. In contrast to the prevailing mechanistic models, which imply that the most stable surface species is responsible for enantiodifferentiation, our results show that less stable cinchona species with a tilted aromatic ring anchor provide significantly stronger enantioselective control. As a consequence, the so-called anchoring moiety of the chiral modifier exceeds the mere function of adsorptive anchoring and its molecular orientation has to be also taken into account in explaining the observed enantioselectivity of chirally modified metals.
Author	Meemken, Fabian Baiker, Alfons Rodríguez-García, Laura Hungerbühler, Konrad
AuthorAffiliation	ETH Zürich Institute for Chemical and Bioengineering, Department of Chemistry and Applied Biosciences
AuthorAffiliation_xml	– name: ETH Zürich – name: Institute for Chemical and Bioengineering, Department of Chemistry and Applied Biosciences
Author_xml	– sequence: 1 givenname: Laura surname: Rodríguez-García fullname: Rodríguez-García, Laura – sequence: 2 givenname: Konrad surname: Hungerbühler fullname: Hungerbühler, Konrad – sequence: 3 givenname: Alfons surname: Baiker fullname: Baiker, Alfons – sequence: 4 givenname: Fabian orcidid: 0000-0001-9983-0394 surname: Meemken fullname: Meemken, Fabian email: fabian.meemken@chem.ethz.ch
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