Oxidized Styrylruthenium–Ferrocene Conjugates: From Valence Localization to Valence Tautomerism

Oxidized Styrylruthenium–Ferrocene Conjugates: From Valence Localization to Valence Tautomerism

We report on ferrocenyl–styrylruthenium conjugates Fc–C6H4–CH=CH–Ru(CO)(PiPr3)2(L) in which the electron density at the alkenylruthenium site is modified by the variation of the coligand L [L = Cl, acetylacetonate (acac), hexafluoroacetylacetonate (hfac), or dipivaloylmethane (dpvm); Fc = ferrocenyl...

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Veröffentlicht in:European journal of inorganic chemistry 2017-01, Vol.2017 (2), p.401-411
Hauptverfasser: Hassenrück, Christopher, Mücke, Philipp, Scheck, Johanna, Demeshko, Serhiy, Winter, Rainer F.
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Sprache:eng
Schlagworte:
Balancing
Band spectra
Cations
Heterometallic complexes
Infrared spectroscopy
Oxidation
Radicals
Ruthenium
Sandwich complexes
Spectroelectrochemistry
Tautomers
Valence tautomerism
VTS
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container_title European journal of inorganic chemistry
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creator Hassenrück, Christopher
Mücke, Philipp
Scheck, Johanna
Demeshko, Serhiy
Winter, Rainer F.
description We report on ferrocenyl–styrylruthenium conjugates Fc–C6H4–CH=CH–Ru(CO)(PiPr3)2(L) in which the electron density at the alkenylruthenium site is modified by the variation of the coligand L [L = Cl, acetylacetonate (acac), hexafluoroacetylacetonate (hfac), or dipivaloylmethane (dpvm); Fc = ferrocenyl]. Crystallographic studies on three derivatives provide snapshots of the conformational degrees of freedom for rotation around the vinyl–phenylene and phenylene–ferrocenyl linkages. All four complexes undergo two consecutive, reversible one‐electron oxidations, the potentials of which depend on the ligand L. On the basis of IR spectroelectrochemistry results, the first oxidations of the less electron‐rich chlorido and hfac complexes are biased strongly towards the ferrocenyl site. However, the radical cation of the acac complex exists as two equilibrating valence tautomers (VTs) Fc+–C6H4–CH=CH–{Ruacac} ⇌ Fc–[C6H4–CH=CH–{Ruacac}]+ [{Ruacac} = Ru(CO)(PiPr3)2(acac)], in which the positive charge is either localized at the ferrocenyl site or delocalized over the styrylruthenium moiety. Variable‐temperature electron paramagnetic resonance (EPR) and Mössbauer spectroscopy reveal that the ferrocenium valence tautomer dominates at low temperature. A marked solvent dependence on the position and relative intensities of the separate Ru(CO) bands in the IR spectra reveals environmental effects on the relative stabilities of the two VTs, whereas the strong negative solvatochromism of the prominent near‐IR band of the radical cation of the acac complex argues for a sizable (intervalence) charge‐transfer component of the underlying excitation. The radical cations of the title complexes exists as two equilibrating valence tautomers in which the unipositive charge is either concentrated at the ferrocenyl site or delocalized over the styrylruthenium entity.
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Crystallographic studies on three derivatives provide snapshots of the conformational degrees of freedom for rotation around the vinyl–phenylene and phenylene–ferrocenyl linkages. All four complexes undergo two consecutive, reversible one‐electron oxidations, the potentials of which depend on the ligand L. On the basis of IR spectroelectrochemistry results, the first oxidations of the less electron‐rich chlorido and hfac complexes are biased strongly towards the ferrocenyl site. However, the radical cation of the acac complex exists as two equilibrating valence tautomers (VTs) Fc+–C6H4–CH=CH–{Ruacac} ⇌ Fc–[C6H4–CH=CH–{Ruacac}]+ [{Ruacac} = Ru(CO)(PiPr3)2(acac)], in which the positive charge is either localized at the ferrocenyl site or delocalized over the styrylruthenium moiety. Variable‐temperature electron paramagnetic resonance (EPR) and Mössbauer spectroscopy reveal that the ferrocenium valence tautomer dominates at low temperature. A marked solvent dependence on the position and relative intensities of the separate Ru(CO) bands in the IR spectra reveals environmental effects on the relative stabilities of the two VTs, whereas the strong negative solvatochromism of the prominent near‐IR band of the radical cation of the acac complex argues for a sizable (intervalence) charge‐transfer component of the underlying excitation. 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Crystallographic studies on three derivatives provide snapshots of the conformational degrees of freedom for rotation around the vinyl–phenylene and phenylene–ferrocenyl linkages. All four complexes undergo two consecutive, reversible one‐electron oxidations, the potentials of which depend on the ligand L. On the basis of IR spectroelectrochemistry results, the first oxidations of the less electron‐rich chlorido and hfac complexes are biased strongly towards the ferrocenyl site. However, the radical cation of the acac complex exists as two equilibrating valence tautomers (VTs) Fc+–C6H4–CH=CH–{Ruacac} ⇌ Fc–[C6H4–CH=CH–{Ruacac}]+ [{Ruacac} = Ru(CO)(PiPr3)2(acac)], in which the positive charge is either localized at the ferrocenyl site or delocalized over the styrylruthenium moiety. Variable‐temperature electron paramagnetic resonance (EPR) and Mössbauer spectroscopy reveal that the ferrocenium valence tautomer dominates at low temperature. A marked solvent dependence on the position and relative intensities of the separate Ru(CO) bands in the IR spectra reveals environmental effects on the relative stabilities of the two VTs, whereas the strong negative solvatochromism of the prominent near‐IR band of the radical cation of the acac complex argues for a sizable (intervalence) charge‐transfer component of the underlying excitation. 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Crystallographic studies on three derivatives provide snapshots of the conformational degrees of freedom for rotation around the vinyl–phenylene and phenylene–ferrocenyl linkages. All four complexes undergo two consecutive, reversible one‐electron oxidations, the potentials of which depend on the ligand L. On the basis of IR spectroelectrochemistry results, the first oxidations of the less electron‐rich chlorido and hfac complexes are biased strongly towards the ferrocenyl site. However, the radical cation of the acac complex exists as two equilibrating valence tautomers (VTs) Fc+–C6H4–CH=CH–{Ruacac} ⇌ Fc–[C6H4–CH=CH–{Ruacac}]+ [{Ruacac} = Ru(CO)(PiPr3)2(acac)], in which the positive charge is either localized at the ferrocenyl site or delocalized over the styrylruthenium moiety. Variable‐temperature electron paramagnetic resonance (EPR) and Mössbauer spectroscopy reveal that the ferrocenium valence tautomer dominates at low temperature. A marked solvent dependence on the position and relative intensities of the separate Ru(CO) bands in the IR spectra reveals environmental effects on the relative stabilities of the two VTs, whereas the strong negative solvatochromism of the prominent near‐IR band of the radical cation of the acac complex argues for a sizable (intervalence) charge‐transfer component of the underlying excitation. The radical cations of the title complexes exists as two equilibrating valence tautomers in which the unipositive charge is either concentrated at the ferrocenyl site or delocalized over the styrylruthenium entity.</abstract><cop>Weinheim</cop><pub>Wiley Subscription Services, Inc</pub><doi>10.1002/ejic.201600776</doi><tpages>11</tpages><orcidid>https://orcid.org/0000-0002-2506-7530</orcidid><orcidid>https://orcid.org/0000-0001-8381-0647</orcidid><oa>free_for_read</oa></addata></record>
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source Wiley Online Library Journals Frontfile Complete
subjects Balancing
Band spectra
Cations
Heterometallic complexes
Infrared spectroscopy
Oxidation
Radicals
Ruthenium
Sandwich complexes
Spectroelectrochemistry
Tautomers
Valence tautomerism
VTS
title Oxidized Styrylruthenium–Ferrocene Conjugates: From Valence Localization to Valence Tautomerism
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