Phosphinidene-bridged binuclear complexes

Garcı́a, M. Esther; García‐Vivó, Daniel; Ramos, Alberto; Ruiz, Miguel A.

doi:10.1016/j.ccr.2016.09.008

Cited by 65 publications

(46 citation statements)

References 147 publications

(141 reference statements)

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“…[9][10][11][12] Nucleophilic phosphinidene complexes are preferred when the spectator ligands L are strong -donors, while strong π-accepting ligands render the phosphinidene unit more electrophilic. 13 In contrast to the rich chemistry of phosphinidene-bridged dinuclear complexes, 14 terminal phosphinidene complexes are rare and Mindiola et al bond lengths were found and result in pseudo-triply bonded systems. 15,16 Attempts to synthesize a base-free titanocene phoshinidene complex using phospha-Wittig reagent 2c with a sterically more demanding Dip Ter group did only result in decomposition of 1 at higher temperatures.…”

Section: Introductionmentioning

confidence: 99%

Titanocene Pnictinidene Complexes

Fischer¹,

Reiß²,

Hering‐Junghans

2021

Preprint

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The phospha-Wittig reagent MesTerPPMe3 (MesTer = 2,6-{2,4,6-Me3-C6H2}-C6H3) and arsa-Wittig reagent DipTerAsPMe3 (DipTer = 2,6-{2,6-iPr2-C6H3}-C6H3) have been employed to synthesize the titanocene complexes Cp2Ti(PMe3)PnAr (Pn = P, As) with terminal phosphinidene or arsinidene ligands, respectively. <a>Ab initio studies show that the description as singlet biradicaloids in their ground state is warranted.</a>

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Section: Introductionmentioning

confidence: 99%

Titanocene Pnictinidene Complexes

Fischer¹,

Reiß²,

Hering‐Junghans

2021

Preprint

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“…We have been working for many years on the synthesis, structure and reactivity of binuclear transition-metal carbonyl complexes, particularly those involving elements of groups 6 to 8, and displaying metal-metal or metal-phosphorus bonds. [1][2][3] While looking for binuclear species connected by long intermetallic bonds at the Cambridge Crystallographic Data Centre (CCDC) data base, we came across the structure of a simple, but rare ditechnetium complex having two bridging carbonyls, formulated as [Tc2(-CO)2(CO)6(NC5H5)2] (1). This complex was reported by Zuhayra et al as the main product of the reaction of [Tc2(CO)10] with pyridine at room temperature, using the reagent itself as solvent.…”

Section: Introductionmentioning

confidence: 99%

A Bridging Carbonyl of Unlikely Geometry: On the True Nature of the Technetium Complex [Tc2(μ-CO)2(CO)6(NC5H5)2]

Ruiz¹,

García‐Vivó²

2020

Preprint

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“…Binuclear phosphinidene compounds have recently been reviewed. 3 The M-E distances are strongly affected by the steric bulk of the MLn fragment. The variety of MLn fragments observed in these complexes has expanded, however, with examples being observed for M(CO)4, M(CO)5, CpM(CO)x (X = 0 -3), Cp2M and cyclic carbene ligands.…”

Section: Introductionmentioning

confidence: 99%

“…The structures of (A) [Bi{Cr(CO)5}4]3and (B) [Bi{Co(CO)4}4] -.2.1.2 E(MLn)3 and E(MLn)4 Compounds with One or Two M-M BondsStructures III -V can be derived from E(MLn)3 and E(MLn)4 with the introduction of one or two M-M bonds (Table 3;Figures 6-8), the hemi-spirocyclic species IV(Table 4) and the spirocyclic compounds V (Table 5)(Figures 11-14, Schemes 1-4). For metal carbonyls, loss of CO may lead to M-M bond formation, but these structures may also be obtained without observation of intermediate open structures as in the cases of the Sb-and Bi-clusters with osmium or rhenium as seen in…”

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confidence: 99%

Transition metal complexes of the naked pnictide elements

Whitmire

2018

Coordination Chemistry Reviews

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Even though transition metal compounds containing "naked" pnictide elements (E) have been known for many decades now, the chemistry of this interesting class of compound continues to provide surprises and intellectual challenges in describing new structures and interesting bonding patterns. The number of ligand sets that now support naked pnictide ligands has expanded from the traditional organometallic ligand sets to include metal alkoxides and N-heterocyclic carbene species, and complexes are known from the early transition metals to the end of the d-block. In this review, complexes are presented based on their structural similarities starting with metal-rich compounds containing isolated E atoms in a variety of coordination environments presented in order of increasing metal connectivity. Subsequently, compounds possessing Ex fragments with x ranging from 2 to 24 are presented in increasing nuclearity. Finally, structures with low ligand ratios and metal to pnictide ratios close to one are discussed, followed by compounds that have no supporting ligands and resemble metal allow fragments. Where appropriate, electron counting rules have been employed to explain observed structures and reactivity patterns. A particularly intense area of study has been the creation of inorganic-organometallic-organic polymers and frameworks based on discrete clusters with Ex fragments (2 £ x £ 6) where the Ex fragment provides a node for structure growth in combination with transition metal coordination frameworks based on Cu and Ag and suitable organic ligands. Simple oligomers, 1-dimensional polymers, 2-dimensional polymeric networks and 3-dimensional polymeric structure have all be prepared and structurally characterized. In addition to the structural data, synthetic methods are described. The review encompasses 170 references, 118 figures and nine schemes.

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Phosphinidene-bridged binuclear complexes

Cited by 65 publications

References 147 publications

Titanocene Pnictinidene Complexes

Titanocene Pnictinidene Complexes

A Bridging Carbonyl of Unlikely Geometry: On the True Nature of the Technetium Complex [Tc2(μ-CO)2(CO)6(NC5H5)2]

Transition metal complexes of the naked pnictide elements

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