A. Friedrich scite author profile

Reaction of the trityl cation in [Ph3C+][B(C6F5)4 –] with the n-butyl anion in (BDI)MgnBu led to ß-hydride abstraction and formation of Ph3CH, 1-butene, and [(BDI)Mg+][B(C6F5)4 –] (1) (BDI = CH[C(CH3)N-Dipp]2; Dipp = 2,6-diisopropylphenyl). The “naked” Mg center in 1 is weakly bound to B(C6F5)4 – through two Mg···F interactions. Addition of arenes to 1 gave strongly bound cationic magnesium π–arene complexes (BDI)Mg+·arene in good yields arene = benzene (94%), toluene (74%), m-xylene (82%), and mesitylene (63%). 1,2,4,5-Tetramethylbenzene is too bulky to give a coordination complex. Crystal structures of these π-arene complexes show η3–arene–Mg interactions for the smaller arenes (benzene, toluene and m-xylene). In each case, the coordination sphere was filled by an additional Mg···F interaction. For mesitylene, η6-coordination was found, leaving no space at the metal for supplementary Mg···F interaction. Dissolved in C6D5Br, all arene complexes are in association–dissociation equilibrium: (BDI)Mg+ + arene ⇄ (BDI)Mg+·arene. For the most strongly bound mesitylene ligand, a decoalescence of the 1H NMR resonances was reached at −20 °C, each species giving separate signals. From the temperature dependency of this equilibrium, the following thermodynamic parameters have been deduced: ΔH 0 = −6.9 kcal·mol–1 and ΔS 0 = −28.2 cal·mol–1·K–1. DFT calculations reveal that the Mg···arene bonding is mainly electrostatic of nature with only little charge transfer from arene to Mg2+ (ca. 0.05 e) and a slight polarization of π-electron density toward the metal. Substitution of benzene in (BDI)Mg+·C6H6 for mesitylene is exothermic by −11.7 kcal/mol; however, including the B(C6F5)4 – counterion in the calculation gave an energy gain of −2.2 kcal/mol. This clearly demonstrates that weakly coordinating anions can affect these Mg···arene interactions substantially.

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Comparison of Magnesium and Zinc in Cationic π-Arene and Halobenzene Complexes

Friedrich

Eyselein

Langer

et al. 2021

Organometallics

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The reaction of (tBuBDI)ZnEt with [Ph3C+][B(C6F5)4 −] yielded the cation (tBuBDI)Zn+ (tBuBDI = CH[C(tBu)N-DIPP]2, DIPP = 2,6-diisopropylphenyl). The cation is sterically too shielded to interact with the ion B(C6F5)4 – but forms complexes with arenes (benzene, toluene, m-xylene) or halobenzenes (PhX: X = F, Cl, Br, I). Crystal structures of these complexes are compared with those of the corresponding Mg complexes. Although Mg2+ and Zn2+ are of equal size, the Zn···arene and Zn···XPh contacts are generally 0.1–0.2 Å shorter than comparable contacts to (tBuBDI)Mg+. This originates from differences in bond character: bonding to Mg has a more electrostatic nature. A major difference between Mg and Zn is observed for PhF complexation. While the hard Mg2+ cation prefers Mg···FPh bonding, the softer Zn2+ shows a Zn···(π)PhF interaction. Heavier halobenzenes with softer halogens (Cl, Br, I) show Zn···XPh bonding. DFT calculations on (tBuBDI)Zn+···XPh (X = F, Cl, Br, I) show decreasing Zn···X–Ph angles from PhF to PhI on account of the increase in the halogen’s σ-hole. Zn···XPh interactions result in C–X bond lengthening, but C–X bond activation is less pronounced than in corresponding Mg···XPh complexes. Weak (tBuBDI)Zn+···XPh bonding could not be detected in solution but is believed to play a role in the functionalization of organohalides by Zn reagents.

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