True and masked three-coordinate T-shaped platinum(II) intermediates

Ortuño, Manuel Á.; Conejero, Salvador; Lledós, Agustı́

doi:10.3762/bjoc.9.153

Cited by 58 publications

(68 citation statements)

References 144 publications

(240 reference statements)

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“…[388] Ther emoval of au nivalent residue from as quare-planar platinum(II) complex to introduce aW CA represents an ideal method for the formation of (masked) Tshaped complexes. [388] Ther emoval of au nivalent residue from as quare-planar platinum(II) complex to introduce aW CA represents an ideal method for the formation of (masked) Tshaped complexes.…”

Section: Palladium and Platinum Cationsmentioning

confidence: 99%

“…In platinum catalysis,t hree-coordinate T-shaped, 14electron complexes are thought to be key intermediates for fundamental reactions including b-hydride elimination, olefin insertion reactions,and in the Shilov-type systems for hydrocarbon CÀHbond activations and this area has been reviewed in detail. [388] Ther emoval of au nivalent residue from as quare-planar platinum(II) complex to introduce aW CA represents an ideal method for the formation of (masked) Tshaped complexes.…”

Section: Palladium and Platinum Cationsmentioning

confidence: 99%

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Taming the Cationic Beast: Novel Developments in the Synthesis and Application of Weakly Coordinating Anions

et al. 2018

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This Review gives a comprehensive overview of the most topical weakly coordinating anions (WCAs) and contains information on WCA design, stability, and applications. As an update to the 2004 review, developments in common classes of WCA are included. Methods for the incorporation of WCAs into a given system are discussed and advice given on how to best choose a method for the introduction of a particular WCA. A series of starting materials for a large number of WCA precursors and references are tabulated as a useful resource when looking for procedures to prepare WCAs. Furthermore, a collection of scales that allow the performance of a WCA, or its underlying Lewis acid, to be judged is collated with some advice on how to use them. The examples chosen to illustrate WCA developments are taken from a broad selection of topics where WCAs play a role. In addition a section focusing on transition metal and catalysis applications as well as supporting electrolytes is also included.

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Section: Palladium and Platinum Cationsmentioning

confidence: 99%

Section: Palladium and Platinum Cationsmentioning

confidence: 99%

Taming the Cationic Beast: Novel Developments in the Synthesis and Application of Weakly Coordinating Anions

et al. 2018

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“…Although the conversion of stable four-coordinate (square-planar), 16-electron complexes into highly reactive three-coordinate, [2] 14-electron species is ac ommonly invoked mechanistic paradigm in platinum chemistry, [3] isolable three-coordinate Pt II complexes have proven elusive. [4] Indeed, the coordination chemistry of d 8 species of Pt II is almost exclusively dominated by square-planar species. Notwithstanding the utility of "operationally" three-coordinate Pt II compounds,s uch as those featuring aw eak agostic interaction occupying the fourth coordination site, [5] the structural characterization of genuine three-coordinate Pt II species is limited to reports by the groups of Braunschweig [6] and Conejero/Lledós.…”

mentioning

confidence: 99%

“…[4] Although the apparently Y-shaped neutral Pt II complex [(IPr)Pt-(SiMe 2 Ph) 2 ]( C)w as also described, [8] subsequent analysis suggests that this complex can be more appropriately viewed as aplatinum(0) s-disilane species (Scheme 1). [9] By comparison, isolable three-coordinate,f ormally 14 electron Pt II complexes featuring terminal amido ligation have not been reported previously,o wing in part to the considerable synthetic challenges associated with the preparation of monomeric (nonbridging) species of this type.…”

mentioning

confidence: 99%

“…[4] Indeed, the coordination chemistry of d 8 species of Pt II is almost exclusively dominated by square-planar species. Notwithstanding the utility of "operationally" three-coordinate Pt II compounds,s uch as those featuring aw eak agostic interaction occupying the fourth coordination site, [5] the structural characterization of genuine three-coordinate Pt II species is limited to reports by the groups of Braunschweig [6] and Conejero/Lledós.…”

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confidence: 99%

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Synthesis and Reactivity of a Neutral, Three‐Coordinate Platinum(II) Complex Featuring Terminal Amido Ligation

et al. 2015

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Ac rystallographically characterized three-coordinate,f ormally 14 electron Pt II complex 1 featuring terminal amido ligation is reported. Computational analysis revealed relatively weak p donation from the amide lone pair to platinum and supports a1 4-electron assignment for 1. Stoichiometric reactivity studies confirmed the viability of net O À Ha nd C À Ha ddition across,a sw ell as isonitrile insertion into,the terminal platinum-amido linkage of 1.

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First Stabilization of 14‐Electron Rhodium(I) Complexes by Hemichelation

et al. 2014

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Hemichelation is emerging as a new mode of coordination where non‐covalent interactions crucially contribute to the cohesion of electron‐unsaturated organometallic complexes. This study discloses an unprecedented demonstration of this concept to a Group 9 metal, that is, RhI. The syntheses of new 14‐electron RhI complexes were achieved by choosing the anti‐[(η6:η6‐fluorenyl){Cr(CO)3}2] anion as the ambiphilic hemichelating ligand, which was treated with [{Rh(nbd)Cl}2] (nbd=norbornadiene) and [{Rh(CO)2Cl}2]. The new T‐shaped RhI hemichelates were characterized by analytical and structural methods. Investigations using the methods of the DFT and electron‐density topology analysis (NCI region analysis, QTAIM theory) confirmed the closed‐shell, non‐covalent and attractive characters of the interaction between the RhI center and the proximal Cr(CO)3 moiety. This study shows that, by appropriate tuning of the electronic properties of the ambiphilic ligand, truly coordination‐unsaturated RhI complexes can be synthesized in a manageable form.

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True and masked three-coordinate T-shaped platinum(II) intermediates

Cited by 58 publications

References 144 publications

Taming the Cationic Beast: Novel Developments in the Synthesis and Application of Weakly Coordinating Anions

Taming the Cationic Beast: Novel Developments in the Synthesis and Application of Weakly Coordinating Anions

Synthesis and Reactivity of a Neutral, Three‐Coordinate Platinum(II) Complex Featuring Terminal Amido Ligation

First Stabilization of 14‐Electron Rhodium(I) Complexes by Hemichelation

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