Protic Ferrocenyl Acyclic Diamino Carbene Gold(I) Complexes

Waniek, Sven D.; Förster, Christoph; Heinze, Katja

doi:10.1002/ejic.202100905

Cited by 5 publications

(15 citation statements)

References 124 publications

(165 reference statements)

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“…[32,35] The ferrocenyl groups display for the C 5 H 5 one, and for the C 5 H 4 ligands three carbon signals at 66-81 ppm, as expected (Experimental). [13,14,16,17,23,41] The electronic properties of 2, 3 a-c, 5 and 6 were studied using cyclic (= CV) and square wave voltammetry (= SWV) as well as in situ IR spectroelectrochemistry (3 a-c) (Table 1; Figures 1 and 2; Figures SI1-SI8, see the ESI). The electrochemical measurements were performed under an atmosphere of argon in anhydrous dichloromethane solutions containing [NBu 4 ][B(C 6 F 5 ) 4 ] (0.1 mol L À 1 ) as supporting electrolyte at 25 °C.…”

Section: Resultsmentioning

confidence: 99%

“…[11,12] Hitherto, organometallic complexes with functionalized isocyanoferrocenes with a wide range of transition metals (Cr, Rh, Pd, Cu, Au, …) are known. [13][14][15][16][17][18][19][20][21][22][23] In this context, homoleptic complexes of type [Cr(C�NFc) 6 ] and [Cr(C�NFc) 6 ] n + (n = 1, 2; Fc=Fe(η 5 À C 5 H 4 )(η 5 À C 5 H 5 )), [19,20I] as well as barely characterized metal carbonyl isocyanoferrocenes [M(CO) 6-n (C�NFc) n ] (M=Cr, n = 1; M=Mo; n = 2), [18,21] [Fe(η 5 À C 5 H 4 N�CÀ Cr(CO) 5 ) 2 ] [22] and [Cr-(CO) 5 (C�NCHRFc)] (R=Me, i Pr, t Bu, c Hex) [18] exist. The electrochemical investigations are limited to a few of these complexes and were performed with [PF 6 ] À or [BF 4 ] À ions as supporting electrolyte.…”

Section: Introductionmentioning

confidence: 99%

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Synthesis and Electrochemical Behavior of Metal Carbonyl Isocyanoferrocene Compounds [M(CO)_6‐n(C≡NFc)_n] (M=Cr, Mo, W; n=1, 2, 3)

Mahrholdt

Kovalski

Noll

et al. 2022

Zeitschrift anorg allge chemie

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The synthesis of [M(CO)6‐n(C≡NFc)n] (n=1: M=Cr, 3 a; M=Mo, 3 b; M=W, 3 c. n=2: M=Mo, 5. n=3: M=Mo, 6. Fc=Fe(η5−C5H4)(η5−C5H5)) by the reaction of [M(CO)5(thf)] (M=Cr, 1 a; M=Mo, 1 b; M=W 1 c) (synthesis of 3 a–c), [Mo(CO)4(nbd)] (4) (synthesis of 5) or [Mo(CO)6] (synthesis of 6) with FcN≡C (2) is discussed. IR studies confirm the formation of cis‐[Mo(CO)4(C≡NFc)2] (5) and mer‐[Mo(CO)3(C≡NFc)3] (6). The electrochemical behavior of 2, 3 a–c, 5 and 6 is reported. Compound 2 shows a reversible Fc redox event at E°1′=355 mV (ΔEp=60 mV). Upon complexation of 2 to M(CO)5 this wave is slightly shifted to E°′=335 (3 a), 345 (3 b) and 340 mV (3 c) showing that in 3 a–c the FcN≡C ligand is more easy to oxidize. The substitution of further CO ligands in 3 b by FcN≡C as characteristic for 5 and 6 influences the respective redox events insignificantly. Reversible oxidation of Cr occurs at 1045 mV (3 a) (ΔEp=60 mV), while for 3 b,c (3 b: 1170 mV, 3 c: 1290 mV) irreversible oxidations were observed. In addition, in situ spectroelectrochemical IR studies were carried out on 3 a–c. The results were further confirmed by DFT calculations.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Synthesis and Electrochemical Behavior of Metal Carbonyl Isocyanoferrocene Compounds [M(CO)_6‐n(C≡NFc)_n] (M=Cr, Mo, W; n=1, 2, 3)

Mahrholdt

Kovalski

Noll

et al. 2022

Zeitschrift anorg allge chemie

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“…In 2022, Heinze's group introduced a novel ferrocenyl acyclic diamino carbene. 74 This carbene displayed reversible oxidation, evidenced through cyclic and square wave voltammetry. The initial formation of ferrocenium ions was uniquely confirmed using EPR spectroscopy, followed by a slower, potentially intramolecular, electron transfer.…”

Section: Perspectivementioning

confidence: 99%

Unlocking the catalytic potential of gold(ii) complexes: a comprehensive reassessment

Pérez-Sánchez,

Herrera,

Concepción Gimeno

2024

Dalton Trans.

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“…52 This EPR-active species had been assigned to a persistent gold(II) radical with the unpaired electron occupying an orbital of mainly 5d x 2 −y 2 character. 45,52 These proposed active gold(II) species are hence placed in between gold(I) and gold(III) catalysts.…”

Section: ■ Introductionmentioning

confidence: 99%

“…Oxidation of ferrocenyl carbene complexes 4a and 4b with the oxidant [N(4-C 6 H 4 Br) 3 ] •+ in THF bleached the sharp EPR resonance of [N(4-C 6 H 4 Br) 3 ] •+ at g = 2.016. 52 45,52 A slow intramolecular electron transfer (valence isomerization) from gold(I) to iron(III) had been suggested resulting in a gold(II)/iron(II) character of the paramagnetic EPR-active species. 45,52 As ferrocene possesses a diamagnetic low-spin iron(II) ion, the unpaired electron is essentially localized at the gold center.…”

Section: ■ Introductionmentioning

confidence: 99%

Redox Activation of Acyclic (Aryl)(amino)carbene Gold(I) Complexes

Schrick,

Ramollo,

Hirschbiegel

et al. 2024

Organometallics

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Activation of halido gold(I) precatalysts Au(L)X to a cationic species [Au(L)] + with a vacant coordination site for substrate binding typically requires abstraction of the halide X − . The Fischer-type carbene gold(I) precatalysts 2−4 feature redoxactive dimethylanilinyl, 2-furyl, and ferrocenyl substituents without (2a−4a) and with (2b−4b), a dangling dimethylamino substituent. After single-electron oxidation, 2−4 catalyze the cyclization of N(2-propyn-1-yl)benzamide to 2-phenyl-5-vinylidene-2-oxazoline without the presence of a halide scavenger. While all dimethylanilinyl and 2-furyl substituted precatalysts likely form catalytically active nanoparticles after oxidation, the ferrocenyl substituted gold(I) complexes 4a and 4b operate in a homogeneous fashion. The dimethylamino substituted ferrocenyl precatalyst 4b is the most active one. The formation of the catalytically active molecular species after oxidation was probed by stopped-flow experiments, quantitative EPR spectroscopy, and quantum chemical calculations to arrive at a consistent mechanistic picture that involves one-electron oxidation of the ferrocene, valence isomerization to a gold(II) species and anion coordination to the gold(II) center. This oxidation/isomerization/coordination activation mechanism is fundamentally different from the typical activation of gold(I) precatalysts by halide abstraction and opens new avenues in gold catalysis beyond gold(I) and gold(III) catalyses.

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Protic Ferrocenyl Acyclic Diamino Carbene Gold(I) Complexes

Cited by 5 publications

References 124 publications

Synthesis and Electrochemical Behavior of Metal Carbonyl Isocyanoferrocene Compounds [M(CO)_6‐n(C≡NFc)_n] (M=Cr, Mo, W; n=1, 2, 3)

Synthesis and Electrochemical Behavior of Metal Carbonyl Isocyanoferrocene Compounds [M(CO)_6‐n(C≡NFc)_n] (M=Cr, Mo, W; n=1, 2, 3)

Unlocking the catalytic potential of gold(ii) complexes: a comprehensive reassessment

Redox Activation of Acyclic (Aryl)(amino)carbene Gold(I) Complexes

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Protic Ferrocenyl Acyclic Diamino Carbene Gold(I) Complexes

Cited by 5 publications

References 124 publications

Synthesis and Electrochemical Behavior of Metal Carbonyl Isocyanoferrocene Compounds [M(CO)6‐n(C≡NFc)n] (M=Cr, Mo, W; n=1, 2, 3)

Synthesis and Electrochemical Behavior of Metal Carbonyl Isocyanoferrocene Compounds [M(CO)6‐n(C≡NFc)n] (M=Cr, Mo, W; n=1, 2, 3)

Unlocking the catalytic potential of gold(ii) complexes: a comprehensive reassessment

Redox Activation of Acyclic (Aryl)(amino)carbene Gold(I) Complexes

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Synthesis and Electrochemical Behavior of Metal Carbonyl Isocyanoferrocene Compounds [M(CO)_6‐n(C≡NFc)_n] (M=Cr, Mo, W; n=1, 2, 3)

Synthesis and Electrochemical Behavior of Metal Carbonyl Isocyanoferrocene Compounds [M(CO)_6‐n(C≡NFc)_n] (M=Cr, Mo, W; n=1, 2, 3)