Determination of the relative ligand-binding strengths in heteroleptic Ir(III) complexes by ESI-Q-TOF tandem mass spectrometry

An electrospray ionization quadrupole time-of-flight mass spectrometer has been utilized to investigate the relative ligand-binding strengths in a series of heteroleptic-charged iridium(III) complexes of the general formula [(C^N)(2) Ir(III) (S-tpy)](PF(6) ) by using variable collision energies. Col...

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Veröffentlicht in:	Journal of mass spectrometry. 2012-01, Vol.47 (1), p.34-40
Hauptverfasser:	Altuntaş, Esra, Winter, Andreas, Baumgaertel, Anja, Paulus, Renzo M, Ulbricht, Christoph, Crecelius, Anna C, Risch, Nikolaus, Schubert, Ulrich S
Format:	Artikel
Sprache:	eng
Schlagworte:	Cations - chemistry Coordination Complexes - chemistry Iridium - chemistry Ligands Pyridines - chemistry Rhodium - chemistry Spectrometry, Mass, Electrospray Ionization - methods Tandem Mass Spectrometry - methods
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container_title	Journal of mass spectrometry.
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creator	Altuntaş, Esra Winter, Andreas Baumgaertel, Anja Paulus, Renzo M Ulbricht, Christoph Crecelius, Anna C Risch, Nikolaus Schubert, Ulrich S
description	An electrospray ionization quadrupole time-of-flight mass spectrometer has been utilized to investigate the relative ligand-binding strengths in a series of heteroleptic-charged iridium(III) complexes of the general formula [(C^N)(2) Ir(III) (S-tpy)](PF(6) ) by using variable collision energies. Collision-induced dissociation experiments were performed in order to study the stability of the Ir(III) complexes that are, for instance, suitable phosphors in light-emitting electrochemical cells. The ratio of signal intensities belonging to the fragment and the undissociated complex depends on the collision energy applied for the tandem mass spectra (MS/MS) analysis. By defining the threshold collision energy and the point of complete complex dissociation, it is possible to estimate the relative complex stabilities depending on the nature of the coordinated ligands [i.e. type of cyclometalating ligand (C^N), substituents on the S-shaped terpyridine (S-tpy)]. The collision energy values differed as a function of the coordination sphere of the Ir(III) centers.
doi_str_mv	10.1002/jms.2023
format	Article
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Collision-induced dissociation experiments were performed in order to study the stability of the Ir(III) complexes that are, for instance, suitable phosphors in light-emitting electrochemical cells. The ratio of signal intensities belonging to the fragment and the undissociated complex depends on the collision energy applied for the tandem mass spectra (MS/MS) analysis. By defining the threshold collision energy and the point of complete complex dissociation, it is possible to estimate the relative complex stabilities depending on the nature of the coordinated ligands [i.e. type of cyclometalating ligand (C^N), substituents on the S-shaped terpyridine (S-tpy)]. 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Collision-induced dissociation experiments were performed in order to study the stability of the Ir(III) complexes that are, for instance, suitable phosphors in light-emitting electrochemical cells. The ratio of signal intensities belonging to the fragment and the undissociated complex depends on the collision energy applied for the tandem mass spectra (MS/MS) analysis. By defining the threshold collision energy and the point of complete complex dissociation, it is possible to estimate the relative complex stabilities depending on the nature of the coordinated ligands [i.e. type of cyclometalating ligand (C^N), substituents on the S-shaped terpyridine (S-tpy)]. 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subjects	Cations - chemistry Coordination Complexes - chemistry Iridium - chemistry Ligands Pyridines - chemistry Rhodium - chemistry Spectrometry, Mass, Electrospray Ionization - methods Tandem Mass Spectrometry - methods
title	Determination of the relative ligand-binding strengths in heteroleptic Ir(III) complexes by ESI-Q-TOF tandem mass spectrometry
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