We have quantum chemically investigated how microsolvation affects the various E2 and S2 pathways, their mutual competition, and the α-effect of the model reaction system HOO(HO) + CHCHCl, at the CCSD(T) level. Interestingly, we identify the dual nature of the α-nucleophile HOO which, upon solvation, is in equilibrium with HO. This solvent-induced dual appearance gives rise to a rich network of competing reaction channels. Among both nucleophiles, S2 is always favored over E2, and this preference increases upon increasing microsolvation. Furthermore, we found a pronounced α-effect, not only for S2 substitution but also for E2 elimination, , HOO is more reactive than HO in both cases. Our activation strain and quantitative molecular orbital analyses reveal the physical mechanisms behind the various computed trends. In particular, we demonstrate that two recently proposed criteria, required for solvent-free nucleophiles to display the α-effect, must also be satisfied by microsolvated HOO(HO) nucleophiles.
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| http://dx.doi.org/10.1039/d4cp00671b | DOI Listing |
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