Asymmetric Hydrogenation on Chirally Modified Pt: Origin of Hydrogen in the N–H–O Interaction between Cinchonidine and Ketone

An understanding of the chiral site–substrate interaction is a necessary prerequisite for the rational design and development of efficient heterogeneous asymmetric catalysts. For the enantioselective hydrogenation of α-ketoesters on cinchona-modified platinum, it has earlier been proposed that the c...

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Published inJournal of the American Chemical Society Vol. 133; no. 49; pp. 19567 - 19569
Main Authors Maeda, Nobutaka, Hungerbühler, Konrad, Baiker, Alfons
Format Journal Article
LanguageEnglish
Published United States American Chemical Society 14.12.2011
Subjects
Cinchona Alkaloids - chemistry
Hydrogen - chemistry
Hydrogenation
Ketones - chemistry
Platinum - chemistry
Stereoisomerism
Online AccessGet full text
ISSN0002-7863
1520-5126
1520-5126
DOI10.1021/ja2054918

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Abstract An understanding of the chiral site–substrate interaction is a necessary prerequisite for the rational design and development of efficient heterogeneous asymmetric catalysts. For the enantioselective hydrogenation of α-ketoesters on cinchona-modified platinum, it has earlier been proposed that the crucial interaction is an N–H–O type hydrogen bonding between the quinuclidine N atom of cinchonidine and the α-carbonyl O atom of the substrate. The involved hydrogen atom has been proposed to originate either from protonation (in protic solvent) or from dissociatively adsorbed hydrogen (in aprotic solvent), but experimental evidence for the latter was lacking so far. In this study, in situ attenuated total reflection infrared spectroscopy combined with modulation excitation spectroscopy and phase sensitive detection provides clear evidence that in aprotic media, hydrogen dissociated on Pt is involved in the N–H–O interaction between the chiral modifier, cinchonidine, and the ketone. In the absence of Pt (pure alumina support), no such interaction occurs, indicating the crucial role of dissociated hydrogen in the formation of the diastereomeric transition complex.
AbstractList An understanding of the chiral site-substrate interaction is a necessary prerequisite for the rational design and development of efficient heterogeneous asymmetric catalysts. For the enantioselective hydrogenation of α-ketoesters on cinchona-modified platinum, it has earlier been proposed that the crucial interaction is an N-H-O type hydrogen bonding between the quinuclidine N atom of cinchonidine and the α-carbonyl O atom of the substrate. The involved hydrogen atom has been proposed to originate either from protonation (in protic solvent) or from dissociatively adsorbed hydrogen (in aprotic solvent), but experimental evidence for the latter was lacking so far. In this study, in situ attenuated total reflection infrared spectroscopy combined with modulation excitation spectroscopy and phase sensitive detection provides clear evidence that in aprotic media, hydrogen dissociated on Pt is involved in the N-H-O interaction between the chiral modifier, cinchonidine, and the ketone. In the absence of Pt (pure alumina support), no such interaction occurs, indicating the crucial role of dissociated hydrogen in the formation of the diastereomeric transition complex.An understanding of the chiral site-substrate interaction is a necessary prerequisite for the rational design and development of efficient heterogeneous asymmetric catalysts. For the enantioselective hydrogenation of α-ketoesters on cinchona-modified platinum, it has earlier been proposed that the crucial interaction is an N-H-O type hydrogen bonding between the quinuclidine N atom of cinchonidine and the α-carbonyl O atom of the substrate. The involved hydrogen atom has been proposed to originate either from protonation (in protic solvent) or from dissociatively adsorbed hydrogen (in aprotic solvent), but experimental evidence for the latter was lacking so far. In this study, in situ attenuated total reflection infrared spectroscopy combined with modulation excitation spectroscopy and phase sensitive detection provides clear evidence that in aprotic media, hydrogen dissociated on Pt is involved in the N-H-O interaction between the chiral modifier, cinchonidine, and the ketone. In the absence of Pt (pure alumina support), no such interaction occurs, indicating the crucial role of dissociated hydrogen in the formation of the diastereomeric transition complex.
An understanding of the chiral site–substrate interaction is a necessary prerequisite for the rational design and development of efficient heterogeneous asymmetric catalysts. For the enantioselective hydrogenation of α-ketoesters on cinchona-modified platinum, it has earlier been proposed that the crucial interaction is an N–H–O type hydrogen bonding between the quinuclidine N atom of cinchonidine and the α-carbonyl O atom of the substrate. The involved hydrogen atom has been proposed to originate either from protonation (in protic solvent) or from dissociatively adsorbed hydrogen (in aprotic solvent), but experimental evidence for the latter was lacking so far. In this study, in situ attenuated total reflection infrared spectroscopy combined with modulation excitation spectroscopy and phase sensitive detection provides clear evidence that in aprotic media, hydrogen dissociated on Pt is involved in the N–H–O interaction between the chiral modifier, cinchonidine, and the ketone. In the absence of Pt (pure alumina support), no such interaction occurs, indicating the crucial role of dissociated hydrogen in the formation of the diastereomeric transition complex.
Author Baiker, Alfons
Maeda, Nobutaka
Hungerbühler, Konrad
AuthorAffiliation Institute for Chemical and Bioengineering
AuthorAffiliation_xml – name: Institute for Chemical and Bioengineering
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  givenname: Nobutaka
  surname: Maeda
  fullname: Maeda, Nobutaka
  email: nobutaka.maeda@chem.ethz.ch, alfons.baiker@chem.ethz.ch
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  givenname: Konrad
  surname: Hungerbühler
  fullname: Hungerbühler, Konrad
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  givenname: Alfons
  surname: Baiker
  fullname: Baiker, Alfons
  email: nobutaka.maeda@chem.ethz.ch, alfons.baiker@chem.ethz.ch
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Snippet An understanding of the chiral site–substrate interaction is a necessary prerequisite for the rational design and development of efficient heterogeneous...
An understanding of the chiral site-substrate interaction is a necessary prerequisite for the rational design and development of efficient heterogeneous...
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SubjectTerms Cinchona Alkaloids - chemistry
Hydrogen - chemistry
Hydrogenation
Ketones - chemistry
Platinum - chemistry
Stereoisomerism
Title Asymmetric Hydrogenation on Chirally Modified Pt: Origin of Hydrogen in the N–H–O Interaction between Cinchonidine and Ketone
URI http://dx.doi.org/10.1021/ja2054918
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