Iron‐ and Cobalt‐Catalyzed Synthesis of Carbene Phosphinidenes

Pal, Kuntal; Hemming, Oliver B.; Day, Benjamin M.; Pugh, Thomas; Evans, David; Layfield, Richard A.

doi:10.1002/ange.201508303

Cited by 24 publications

(8 citation statements)

References 51 publications

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“…The phosphido ligand has a Co− P distance of 2.2254(9) Å that is comparable to those of the low-spin cobalt(I) phosphido complexes [Co(κ 3 -P-(CH 2 CH 2 PMe 2 ) 2 )(κ 2 -P(CH 2 CH 2 PMe 2 ) 3 )] (2.297(1) Å) 51 and Thomas' [(PPP)Co(CO) 2 ] (2.2386(6) Å) 52 and is apparently longer than those in the cobalt(III) phosphido complex 53 the cobalt terminal phosphinidene complex [(Cp)Co-(PPh 3 )(PMes*)] (2.1102(8) Å), 54 and the bridging phosphinidene complex [(IMe 4 ) 2 Co(PMes)] 2 (2.163(1) Å). 55 These metric data indicate the single bond nature of the Co−P interaction in 1. The IPr ligand has the short Co−C bond of 1.892(3) Å that is comparable to its counterparts in the reported low-spin cobalt(I)−NHC complexes having twolegged piano stool geometry, for example CpCo(IPr)(CO) (1.888(3) Å), 56 CpCo(IPr 2 H 2 )(PPh 3 ) (1.880(2) Å), 57 and Cp*Co(IPr)(CO) (1.902(5) Å).…”

Section: ■ Results and Discussionmentioning

confidence: 53%

Reactions of Low-Coordinate Cobalt(0)–N-Heterocyclic Carbene Complexes with Primary Aryl Phosphines

et al. 2018

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Aiming to get knowledge on the reactivity of low-coordinate cobalt(0) species toward primary phosphines, the reactions of [(IPr)Co(vtms)2] and [(ICy)2Co(vtms)] (IPr = 1,3-bis(2′,6′-diisopropylphenyl)imidazol-2-ylidene, ICy = 1,3-dicyclohexylimidazol-2-ylidene, and vtms = vinyltrimethylsilane) with several primary aryl phosphines have been examined. The reactions of [(IPr)Co(vtms)2] and [(ICy)2Co(vtms)] with H2PDmp (Dmp = 2,6-dimesitylphenyl) at 80 °C furnish the diamagnetic cobalt(I) phosphido complexes [(NHC)Co(PHDmp)] (NHC = IPr, 1; ICy, 2) that feature the Co–(η6-mesityl) interaction. Complex 1 can coordinate CO to generate the terminal phosphido complex [(IPr)Co(CO)3(PHDmp)] (3) and can be oxidized by [Cp2Fe][BArF 4] to yield the cobalt(II) phosphido complex [(IPr)Co(PHDmp)][BArF 4] (4, BArF 4 = tetrakis(3,5-di(trifluoromethyl)phenyl)borate). For the reactions with sterically less-hindered primary phosphines, [(IPr)Co(vtms)2] is inert toward H2PC6H2-2,4,6-Me3 (H2PMes) at room temperature, whereas [(ICy)2Co(vtms)] can react with H2PMes at room temperature to produce the cobalt(II) phosphido alkyl complex trans-[(ICy)2Co(CH2CH2SiMe3)(PHMes)] (5). At 80 °C, the cobalt(0) alkene complexes [(IPr)Co(vtms)2] and [(ICy)2Co(vtms)] and also the cobalt phosphido complexes, 1, 2, and 5 can serve as precatalysts for the dehydrocoupling reaction of H2PMes to afford MesHPPHMes. NHC–Co(I)-phosphido species are proposed as the in-cycle intermediates for these cobalt-catalyzed dehydrocoupling reactions.

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Section: ■ Results and Discussionmentioning

confidence: 53%

Reactions of Low-Coordinate Cobalt(0)–N-Heterocyclic Carbene Complexes with Primary Aryl Phosphines

et al. 2018

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“…Formation of the (IMe 4 )PMes adduct is catalyzed also by the phosphinidene-bridged iron complex [(IMe 4 ) 2 Fe(μ-PMes)]. 813 The IMe 4 carbene reacts with the phosphaalkyne i Pr 2 NC P to yield the bicyclic P(I) complex 906. In contrast, reaction of IMe 4 with another phosphaalkene t BuCP and the reaction of i Pr 2 NCP with another NHC led to N-heterocyclic olefins (e.g., 907, Scheme 183).…”

Section: Nhc Complexes Of Group 15 Elementsmentioning

confidence: 99%

NHCs in Main Group Chemistry

et al. 2018

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Since the discovery of the first stable N-heterocyclic carbene (NHC) in the beginning of the 1990s, these divalent carbon species have become a common and available class of compounds, which have found numerous applications in academic and industrial research. Their important role as two-electron donor ligands, especially in transition metal chemistry and catalysis, is difficult to overestimate. In the past decade, there has been tremendous research attention given to the chemistry of low-coordinate main group element compounds. Significant progress has been achieved in stabilization and isolation of such species as Lewis acid/base adducts with highly tunable NHC ligands. This has allowed investigation of numerous novel types of compounds with unique electronic structures and opened new opportunities in the rational design of novel organic catalysts and materials. This Review gives a general overview of this research, basic synthetic approaches, key features of NHC-main group element adducts, and might be useful for the broad research community.

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“…The N(SiMe 3 ) 2 aminolysis strategy was further exemplified using the bis(silylamido) 29 Co to access the aryl-amido complexes 38 Co and 39a Co −39b Co , 563 and the phosphinidene complex 40 Co (Scheme 280). 564 Interestingly, a sequential substitution of the N(SiMe 3 ) 2 groups by NH(DiPP) anilido ligands is possible. Reaction of 29b uCo with 1 equiv NH 2 (DiPP) led to the mixed silylamide/aryl-amide complex 38 Co , while using an excess of NH 2 (DiPP) resulted in the formation of the symmetrical bis(anilido) complex 39a uCo .…”

Section: Chemical Reviewsmentioning

confidence: 99%

N-Heterocyclic Carbene Complexes of Copper, Nickel, and Cobalt

2019

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The emergence of N-heterocyclic carbenes as ligands across the Periodic Table had an impact on various aspects of the coordination, organometallic, and catalytic chemistry of the 3d metals, including Cu, Ni, and Co, both from the fundamental viewpoint but also in applications, including catalysis, photophysics, bioorganometallic chemistry, materials, etc. In this review, the emergence, development, and state of the art in these three areas are described in detail.

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Iron‐ and Cobalt‐Catalyzed Synthesis of Carbene Phosphinidenes

Cited by 24 publications

References 51 publications

Reactions of Low-Coordinate Cobalt(0)–N-Heterocyclic Carbene Complexes with Primary Aryl Phosphines

Reactions of Low-Coordinate Cobalt(0)–N-Heterocyclic Carbene Complexes with Primary Aryl Phosphines

NHCs in Main Group Chemistry

N-Heterocyclic Carbene Complexes of Copper, Nickel, and Cobalt

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