Abstract
Diazo compounds have been largely used as carbene precursors for carbene transfer reactions in a variety of functionalization reactions. However, the ease of carbene generation from the corresponding diazo compounds depends upon the electron donating/withdrawing substituents either side of the diazo functionality. These groups strongly impact the ease of N2 release. Recently, tris(pentafluorophenyl)borane [B(C6F5)3] has been shown to be an alternative transition metal‐free catalyst for carbene transfer reactions. Herein, a density functional theory (DFT) study on the generation of carbene species from α‐aryl α‐diazocarbonyl compounds using catalytic amounts of B(C6F5)3 is reported. The significant finding is that the efficiency of the catalyst depends directly on the nature of the substituents on both the aryl ring and the carbonyl group of the substrate. In some cases, the boron catalyst has negligible effect on the ease of the carbene formation, while in other cases there is a dramatic reduction in the activation energy of the reaction. This direct dependence is not commonly observed in catalysis and this finding opens the way for intelligent design of this and other similar catalytic reactions.
Highlights
Diazo compounds have been extensively used as carbene precursors and have been employed as reagents for a range of functionalization reactions of organic molecules.[1]
The formation of the BÀ O adduct, barrier to N2 release, and the electrophilicity of the carbene center can be directly influenced by the substituents attached to the either side of the aryl ring or carbonyl functionality
We decided to undertake a density functional theory (DFT) study at the SMD/M06-2X/def2-TZVP//SMD/M06-2X/6-31G(d) level of theory in dichloromethane to establish the energy barriers for B(C6F5)3-catalyzed carbene formation from the corresponding α-aryl α-diazocarbonyl compounds when varying the electronic effects on the diazo compound
Summary
Diazo compounds have been extensively used as carbene precursors and have been employed as reagents for a range of functionalization reactions of organic molecules.[1]. The stability of the formed carbene 1 a bearing an electron donating group (NMe2/NH2/OMe) is a result of the π-donation from the aromatic ring to the empty p orbital on the Cb atom and is enhanced by increasing the contribution of resonance structure 1 a’ (Scheme 2a).
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