Quantum Mechanical Modeling Of Reaction Rate Acceleration In Microdroplets
JOURNAL OF PHYSICAL CHEMISTRY A(2020)
Abstract
Organic reactions in microdroplets can be orders of magnitude faster than their bulk counterparts. We hypothesize that solvation energy differences between bulk and interface play a key role in the intrinsic rate constant increase and test the hypothesis with explicit solvent calculations. We demonstrate for both the protonated phenylhydrazine reagent and the hydrazone transition state (TSB) that molecular orientations which place the charge sites at the surface confer high energy. A pathway in which this high-energy form transforms into a fully solvated TSB has a lower activation energy than bulk by some 59 kJ/mol, a result that is consistent with experimental rate acceleration studies.
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Key words
reaction rate acceleration,quantum mechanical modeling
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