A Dibenzotetrathiafulvalene-Bridged Bis(alkenylruthenium) Complex and Its One- and Two-Electron-Oxidized Forms

Gogesch, Franciska S.; Laininger, Lukas S.; Sokov, Nick; Schupp, Stefan M.; Senft, Laura; Moura, Hipassia M.; Linseis, Michael; Schmidt-Mende, Lukas; Ivanović-Burmazović, Ivana; Unterlass, Miriam M.; Winter, Rainer F.

doi:10.1021/acs.inorgchem.3c03184

Cited by 3 publications

References 84 publications

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3,6‐Divinyl‐N‐arylcarbazoles‐bridged diruthenium complexes bearing two Ru(CO)Cl(PⁱPr₃)₂ moieties: Polyelectrochromism and electronic coupling

Abdel‐Rahman

2024

Applied Organom Chemis

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A series of five 3,6‐divinyl‐N‐arylcarbazoles‐bridged diruthenium complexes with a general formula of [{Ru(CO)Cl(PiPr3)2}2(μ‐(CH=CH)2‐(N‐arylcarbazole)‐3,6); aryl = 4‐anisyl; [1a], 4‐tolyl; [1b], phenyl; [1c], 4‐(trifluoromethyl)phenyl; [1d], and 4‐nitrophenyl; [1e]] were successfully synthesized. These new square‐pyramidal bis(ruthenium‐vinyl)‐type complexes were characterized in their neutral state via classical NMR, UV/Vis, and IR spectroscopic techniques and in their three various accessible oxidized states via electrochemical techniques and ESR spectroscopy along with UV/Vis/NIR and IR spectroelectrochemistry as well as with DFT calculations. Our obtained results were compared with the closely related bis(ruthenium‐vinyl)‐appended N‐(4‐anisyl)diphenylamine TAARu2 counterpart of [1a]. Electrochemical studies on complexes [1a]–[1e] revealed three consecutive, chemically and electrochemically, well‐separated, reversible one‐electron oxidation processes at low and well‐accessible potentials. Their half‐wave potential separations ΔE½ between the individual redox waves and the derived comproportionation constants Kc1–Kc3 attribute to noteworthy stability of every oxidized intermediate state. The concert electrochemical and UV/Vis/NIR/IR spectro(electro)scopic results on these rotationally restricted N‐arylcarbazoles‐bridged bis(ruthenium‐alkenyl)‐type complexes [1a]–[1e] confirmed the relative weakness influence of altering the para‐substituent on the peripheral aryl ring. This is most probably due to the sizable torsion with nearly 55° between the co‐planarity of the carbazole heterocycle core and the peripheral N‐bound aryl ring. In their mixed‐valent (MV) radical states [1a]+–[1e]+, the observed pattern of two well‐separated Ru(C≡O) bands mirrors the uneven distribution of the uni‐positive charge over the two chemically equivalent bis(ruthenium‐vinyl) moieties as indicated by classical class II of Robin–Day classification of MV states.

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3,6‐Divinyl‐N‐arylcarbazoles‐bridged diruthenium complexes bearing two Ru(CO)Cl(PⁱPr₃)₂ moieties: Polyelectrochromism and electronic coupling

Abdel‐Rahman

2024

Applied Organom Chemis

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Electronically Weakly Coupled 4,4′‐Divinylazoarylenes‐Bridged Diruthenium Complexes Featuring Two Ru(CO)Cl(PⁱPr₃)₂ Entities

Abdel‐Rahman

2024

ChemistrySelect

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We report here on four novel 4,4′‐divinylazoarylenes‐bridged diruthenium complexes featuring two Ru(CO)Cl(PiPr3)2 entities with a general formula of [{Ru(CO)Cl(PiPr3)2}2(μ‐{CH=CH−Ar}2‐N=N‐4,4′)]; Ar=C6H4; [1 azo], C6H3‐2‐Me; [2 azo], C6H3‐(Me)2‐2,6; [3 azo], and C6H2‐(iPr)2‐2,6; [4 azo]. Those five‐coordinated, square‐pyramidal, 16‐valence electrons (VEs) type‐complexes [1 azo]–[4 azo] were successfully synthesized by the stereo‐and regiospecific insertion of the Ru−H bond of the hydrido substrate HRu(CO)Cl(PiPr3)2 into the two terminal acetylenic bonds of the corresponding 4,4′‐diethynylated azoarylenes [L1]–[L4]. They were routinely characterized in their neutral state by traditional IR, UV/Vis and NMR spectroscopic techniques, and in their two‐closely accessible oxidized states by IR, UV/Vis/NIR spectroelectrochemistry along with electrochemical techniques as well as by (TD)‐DFT calculations. Detailed electrochemical studies on these complexes and IR, UV/Vis/NIR spectro(electro)scopic characterization of their oxidized forms along with (TD)‐DFT calculations revealed to massive 4,4′‐divinylazobenzene linker contributions to the two redox processes in addition to the noteworthy negligible electronic interaction “communication” between the two remote redox‐active end‐groups, rendering them as unique weakly coupled borderline class I/II MV systems in accordance with the Robin and Day classification. Incorporating the four bulky iPr substituents into the ortho‐positions of the 4,4′‐divinylazobenzene linker results to a significant decrease in the tendency of the co‐planarity of the bridge.

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RETRACTED: Electronically Weakly Coupled 4,4'-Divinylazoarylenes-Bridged Diruthenium Complexes Featuring Two Ru(PiPr3)2Cl(CO) Entities

Abdel-Rahman

2024

Preprint

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We report here on novel four 4,4'-divinylazoarylenes-bridged diruthenium complexes featuring two Ru(PiPr3)2Cl(CO) entities with a general formula of [{Ru(PiPr3)2Cl(CO)}2(μ-{CH=CH-Ar}2-N=N-4,4')]; Ar = C6H4; [1azo], C6H3-2-Me; [2azo], C6H3-(Me)2-2,6; [3azo], and C6H2-(iPr)2-2,6; [4azo]. Those five-coordinated, square-pyramidal, 16-valence electrons (VEs) type-complexes [1azo]-[4azo] were successfully synthesized by stereo-and regiospecific insertion of the Ru-H bond of the hydrido substrate RuH(PiPr3)2Cl(CO) into the two terminal acetylenic bonds of the corresponding 4,4'-diethynylated azoarylenes [L1]-[L4]. They were routinely characterized in their neutral state by traditional IR, UV/Vis and NMR spectroscopic techniques, and in their two-closely accessible oxidized states by IR, UV/Vis/NIR spectroelectrochemistry along with electrochemical techniques as well as by (TD)-DFT calculations. Detailed electrochemical studies on these complexes and IR, UV/Vis/NIR spectro(electro)scopic characterization of their oxidized forms along with (TD)-DFT calculations revealed to massive 4,4'-divinylazobenzene linker contributions to the two redox processes in addition to noteworthy negligible electronic interaction “communication” between the two remote redox-active end-groups, rendering them as unique weakly coupled borderline class II / I MV systems in accordance to the Robin and Day classification. Incorporating the four bulky iPr substituents into the ortho-positions of the 4,4'-divinylazobenzene linker results to a significant decrease in the tendency of the co-planarity of the bridge.

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A Dibenzotetrathiafulvalene-Bridged Bis(alkenylruthenium) Complex and Its One- and Two-Electron-Oxidized Forms

Cited by 3 publications

References 84 publications

3,6‐Divinyl‐N‐arylcarbazoles‐bridged diruthenium complexes bearing two Ru(CO)Cl(PⁱPr₃)₂ moieties: Polyelectrochromism and electronic coupling

3,6‐Divinyl‐N‐arylcarbazoles‐bridged diruthenium complexes bearing two Ru(CO)Cl(PⁱPr₃)₂ moieties: Polyelectrochromism and electronic coupling

Electronically Weakly Coupled 4,4′‐Divinylazoarylenes‐Bridged Diruthenium Complexes Featuring Two Ru(CO)Cl(PⁱPr₃)₂ Entities

RETRACTED: Electronically Weakly Coupled 4,4'-Divinylazoarylenes-Bridged Diruthenium Complexes Featuring Two Ru(PiPr3)2Cl(CO) Entities

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A Dibenzotetrathiafulvalene-Bridged Bis(alkenylruthenium) Complex and Its One- and Two-Electron-Oxidized Forms

Cited by 3 publications

References 84 publications

3,6‐Divinyl‐N‐arylcarbazoles‐bridged diruthenium complexes bearing two Ru(CO)Cl(PiPr3)2 moieties: Polyelectrochromism and electronic coupling

3,6‐Divinyl‐N‐arylcarbazoles‐bridged diruthenium complexes bearing two Ru(CO)Cl(PiPr3)2 moieties: Polyelectrochromism and electronic coupling

Electronically Weakly Coupled 4,4′‐Divinylazoarylenes‐Bridged Diruthenium Complexes Featuring Two Ru(CO)Cl(PiPr3)2 Entities

RETRACTED: Electronically Weakly Coupled 4,4'-Divinylazoarylenes-Bridged Diruthenium Complexes Featuring Two Ru(PiPr3)2Cl(CO) Entities

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3,6‐Divinyl‐N‐arylcarbazoles‐bridged diruthenium complexes bearing two Ru(CO)Cl(PⁱPr₃)₂ moieties: Polyelectrochromism and electronic coupling

3,6‐Divinyl‐N‐arylcarbazoles‐bridged diruthenium complexes bearing two Ru(CO)Cl(PⁱPr₃)₂ moieties: Polyelectrochromism and electronic coupling

Electronically Weakly Coupled 4,4′‐Divinylazoarylenes‐Bridged Diruthenium Complexes Featuring Two Ru(CO)Cl(PⁱPr₃)₂ Entities