A mass spectrometric method for rapidly assaying the chiral selectivities of the copper(I) complexes of C sub(2)-symmetric ligands

A gas-phase method for rapidly assaying the enantioselectivity of metal-centered catalysts is presented. It relies on gas-phase equilibrium measurements in a quadrupole ion trap mass spectrometer. A group of well-established C sub(2)-symmetric bis-oxazoline copper(I) complexes was used to identify c...

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Veröffentlicht in:	Journal of mass spectrometry. 2015-11, Vol.50 (11), p.1279-1287
Hauptverfasser:	Davis, Mark C, Gronert, Scott
Format:	Artikel
Sprache:	eng
Schlagworte:	Assaying Asymmetry Catalysis Catalysts Coordination compounds Ligands Mass spectrometers Selectivity
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container_title	Journal of mass spectrometry.
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creator	Davis, Mark C Gronert, Scott
description	A gas-phase method for rapidly assaying the enantioselectivity of metal-centered catalysts is presented. It relies on gas-phase equilibrium measurements in a quadrupole ion trap mass spectrometer. A group of well-established C sub(2)-symmetric bis-oxazoline copper(I) complexes was used to identify chiral probe reagents that are capable of profiling the quality of the asymmetric environment provided by the metal complex. The chiral probes were then applied to a wide variety of copper(I) bis-di-imine complexes. Complexes based on a BINAM backbone exhibited selectivities that were comparable to the bis-oxazolines. Taking advantage of the mass selectivity capabilities of the ion trap mass spectrometer, the method was also applied to an un-purified mix of copper(I) complexes derived from a combinatorial synthesis of bis-di-imine ligands. This approach holds promise as a rapid screening tool for potential chiral catalysts.
doi_str_mv	10.1002/jms.3643
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It relies on gas-phase equilibrium measurements in a quadrupole ion trap mass spectrometer. A group of well-established C sub(2)-symmetric bis-oxazoline copper(I) complexes was used to identify chiral probe reagents that are capable of profiling the quality of the asymmetric environment provided by the metal complex. The chiral probes were then applied to a wide variety of copper(I) bis-di-imine complexes. Complexes based on a BINAM backbone exhibited selectivities that were comparable to the bis-oxazolines. Taking advantage of the mass selectivity capabilities of the ion trap mass spectrometer, the method was also applied to an un-purified mix of copper(I) complexes derived from a combinatorial synthesis of bis-di-imine ligands. 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subjects	Assaying Asymmetry Catalysis Catalysts Coordination compounds Ligands Mass spectrometers Selectivity
title	A mass spectrometric method for rapidly assaying the chiral selectivities of the copper(I) complexes of C sub(2)-symmetric ligands
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