Atom-Economical Synthesis of the Versatile Ruthenium Precursor [TpRuCl(COD)] (Tp = Hydrotris(pyrazol-1-yl)borate) Discloses a Diamine Ligand Dealkylation Process

Jiménez‐Tenorio, Manuel; Puerta, M. Carmen; Valerga, Pedro

doi:10.1021/om501307a

Cited by 7 publications

(5 citation statements)

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“…All solvents were deoxygenated immediately before use. [TpRuCl(COD)] was prepared according to a recently reported procedure . The imidazolium salt bis(3-methylimidazolium)methane dichloride ([ L H 2 ]Cl 2 ) was prepared following suitable adaptations of published procedures .…”

Section: Methodsmentioning

confidence: 99%

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Activation of Propargyl Alcohols by TpRu Complexes Bearing a Bidentate NHC Ligand

2016

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The complex [TpRuCl(COD)] reacts with L•Ag 2 Cl 2 (L = bis(3methylimidazol-2-ylidene)) in dichloroethane at 120°C for a period of 20 h, furnishing the bis(carbene) derivative [TpRuCl(L)] (1). This compound reacts with NaBAr′ 4 in FPh under dinitrogen to yield the cationic dinitrogen complexes [TpRu(N 2)(L)][BAr′ 4 ] (2′) and [{TpRu(L)}(μ-N 2)][BAr′ 4 ] 2 (2). The terminal dinitrogen complex 2′ is labile and spontaneously converts into 2, which was structurally characterized. The reaction of 2 with CO is slow and affords [TpRu(CO)(L)][BAr′ 4 ] (3). The kinetics of the substitution of coordinated dinitrogen in 2 by CD 3 CN has been studied. The value of 25 ± 4 kcal mol −1 determined for ΔG ⧧ 298 for the substitution reaction is consistent with the observation that the dinitrogen ligand is strongly bound to ruthenium in 2. Complex 1 reacts with propargyl alcohols HCCC(OH)RR′ (RR′ = Me 2 , (CH 2) 5 , MePh, HPh) and NaBPh 4 in MeOH at 50−60°C, yielding the corresponding γ-methoxyvinylidene complexes [TpRuCCHC(OMe)RR′(L)][BPh 4 ] (RR′ = Me 2 (4a), (CH 2) 5 (4b), MePh (4c), HPh (4d)). The reaction of 1 with HCCCH 2 OH under the same conditions led to the γ-hydroxyvinylidene derivative [TpRu CCHCH 2 OH(L)][BPh 4 ] (5), whereas the reaction with HCCC(OH)Ph 2 resulted in the formation of the deep purple allenylidene complex [TpRuCCCPh 2 (L)][BPh 4 ] (6). A series of N-and S-donor molecules such as pyrazole, piperidine, 2-pyridinethiol, and 1,3-benzenedithiol add to the C α atom of the allenylidene ligand in 6 to yield the corresponding diphenylvinylcarbene species [TpRuC(X)CHCPh 2 (L)][BPh 4 ] (X = C 3 H 3 N 2 (7), N(CH 2) 4 CH 2 (8), SC 5 H 4 N (9), SC 6 H 4 SH (10)), of which compound 7 was structurally characterized. The reaction of 6 with KOBu t in acetone produced the neutral σ-alkynyl derivative [TpRuCCC(CH 2 COCH 3)Ph 2 (L)] (11), resulting from the addition of acetone enolate to the C γ of the allenylidene ligand.

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Section: Methodsmentioning

confidence: 99%

“…[TpRuCl(COD)] was prepared according to a recently reported procedure. 46 The imidazolium salt bis(3methylimidazolium)methane dichloride ([LH 2 ]Cl 2 ) was prepared following suitable adaptations of published procedures. 30 IR spectra were taken in Nujol mulls on a FTIR spectrophotometer.…”

Section: ■ Experimental Sectionmentioning

confidence: 99%

Activation of Propargyl Alcohols by TpRu Complexes Bearing a Bidentate NHC Ligand

2016

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“…TpRu(cod)Cl (1a) was synthesized as a strategic intermediate 14 to access a variety of halogenated complexes since the diene ligand could be later removed by hydrogenation or heating, 15 or the diene could be exchanged for a variety of phosphine ligands (Scheme 1). The unfunctionalized Tp ligand also offered potential diversification via electrophilic reactions, and so we initially targeted chlorination as a representative transformation.…”

Section: ■ Results and Discussionmentioning

confidence: 99%

“…Jimeńez-Tenorio and Puerta's procedure 14 was used to obtain intermediate 1a. We initially looked at the removal of the cod ligand from 1a, but found that neither hydrogenation nor elevated temperatures allowed for a discrete product to be obtained.…”

Section: ■ Results and Discussionmentioning

confidence: 99%

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Direct Chlorination of Trispyrazolyl Borate Ligands in Tp-Ruthenium Complexes

2017

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Trispyrazolyl borate (Tp) ligands are highly modifiable to vary their steric and electronic properties, and the ability to selectively modify them after metal complexation would allow for rapid catalyst diversification. To this end, stable ruthenium complexes TpRu(cod)Cl (cod = 1,5-cyclooctadiene) and TpRu(nbd)Cl (nbd = norbornadiene) were selectively chlorinated at the 4-positions of the Tp pyrazole rings in high yields to afford TpClRu(cod)Cl and TpClRu(nbd)Cl. The chlorinated complexes could then undergo diene ligand exchange to afford phosphine complexes TpClRu(phosphine)Cl and TpClRu(phosphine)Cl2. Complexes were characterized via NMR spectroscopy, X-ray crystallography, UV–vis spectroscopy, and cyclic voltammetry.

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Arene Ring Expansion by Ruthenium η⁶‐Arene Complexes

Whitehurst,

Schulte,

Wang

et al. 2024

Angewandte Chemie

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Transition metal π‐arene complexes enable the dearomatization of benzene rings to access diversified unsaturated carbocycles through multistep synthetic procedures involving sequential addition of nucleophiles and electrophiles. This work details a single‐step dearomatization process by reaction of Ru(η6‐arene) complexes with enolates derived from α‐halo or α‐(tosyloxy)esters to directly transform π‐coordinated arenes to ring‐expanded cycloheptatrienes.

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Atom-Economical Synthesis of the Versatile Ruthenium Precursor [TpRuCl(COD)] (Tp = Hydrotris(pyrazol-1-yl)borate) Discloses a Diamine Ligand Dealkylation Process

Cited by 7 publications

References 24 publications

Activation of Propargyl Alcohols by TpRu Complexes Bearing a Bidentate NHC Ligand

Activation of Propargyl Alcohols by TpRu Complexes Bearing a Bidentate NHC Ligand

Direct Chlorination of Trispyrazolyl Borate Ligands in Tp-Ruthenium Complexes

Arene Ring Expansion by Ruthenium η⁶‐Arene Complexes

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Atom-Economical Synthesis of the Versatile Ruthenium Precursor [TpRuCl(COD)] (Tp = Hydrotris(pyrazol-1-yl)borate) Discloses a Diamine Ligand Dealkylation Process

Cited by 7 publications

References 24 publications

Activation of Propargyl Alcohols by TpRu Complexes Bearing a Bidentate NHC Ligand

Activation of Propargyl Alcohols by TpRu Complexes Bearing a Bidentate NHC Ligand

Direct Chlorination of Trispyrazolyl Borate Ligands in Tp-Ruthenium Complexes

Arene Ring Expansion by Ruthenium η6‐Arene Complexes

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Arene Ring Expansion by Ruthenium η⁶‐Arene Complexes