2019
DOI: 10.3389/fchem.2019.00365
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Molecular Orbital Insights of Transition Metal-Stabilized Carbocations

Abstract: Transition metal-stabilized carbocations are characterized by synthetically valuable interactions, yet, to date there are no comprehensive reports of the many bonding modes that can exist between a metal and carbocation. This review summarizes developments in these complexes to provide a clear picture of their properties and reactivities. In order to strategically exploit them, we propose this summary of the different bonding modes for transition metal-carbocation complexes. These models will help chemists und… Show more

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Cited by 33 publications
(18 citation statements)
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“…1), similar to the reduction of aryl ketones reported by Zhang and co-workers (Zhang et al, 2007). Upon acidification during reaction workup, alcohol 1 0 0 0 undergoes solvolysis to give the carbocation, which is electronically stabilized by the ferrocenyl group (Goodman et al, 2019). The nucleophilic attack of the carboxylic O atom leads to the formation of the cyclic lactone, 2.…”
Section: Chemical Contextsupporting
confidence: 56%
“…1), similar to the reduction of aryl ketones reported by Zhang and co-workers (Zhang et al, 2007). Upon acidification during reaction workup, alcohol 1 0 0 0 undergoes solvolysis to give the carbocation, which is electronically stabilized by the ferrocenyl group (Goodman et al, 2019). The nucleophilic attack of the carboxylic O atom leads to the formation of the cyclic lactone, 2.…”
Section: Chemical Contextsupporting
confidence: 56%
“…In other words, a carbenium ion should be a more potent σ‐acceptor ligand, leading to a greater enhancement in the hardness and Lewis acidity of the metal atom. Carbenium ions, which have already received interest as ligands for transition metals, may also present a higher chemical resilience, in particular to oxidative conditions. With a view to capitalize on these attributes, we thus decided to reengage in carbenium chemistry and explore the synthesis and properties of carbenium‐based analogues of known L/Z ambiphilic boron‐containing ligands (Figure C) .…”
Section: Figurementioning
confidence: 99%
“…21 The carbenium ion of these phosphines, which we refer to as -cationic phosphines, lacks a direct connection to the phosphorus atom, the electronic attributes of which remain, consequently, largely unaffected. Instead, the carbenium ion is positioned to act as a Z-type ligand, [28][29][30][31][32] capable of interacting directly with the metal center through a M→C + interaction [33][34][35] as in complexes of type E[M]. 36 Interactions are also possible between the carbenium unit and metal-bound anionic ligands, as evoked by Gianetti for complexes of type F. 37 Because such -cationic phosphines are prone to phosphonium ion formation via "coordination" of the phosphorus atom to the carbenium center, 38 we have developed a strategy that provides direct access to the gold complexes [1-AuCl] + and [2-AuCl] + (Figure 1).…”
Section: Introductionmentioning
confidence: 99%
“… 21 In these phosphines, which we refer to as γ-cationic phosphines, the carbenium ion and the phosphorus atom lack a direct connection and are thus partly insulated from one another. However, the carbenium ion is positioned to act as a Z-type ligand, 28–32 capable of interacting directly with the metal center through a M → C + interaction 33–35 as in complexes of type E [M] . 36 Interactions are also possible between the carbenium unit and metal-bound anionic ligands, as evoked by Gianetti for complexes of type F .…”
Section: Introductionmentioning
confidence: 99%