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Abstract
To explore the role of the liquid interface in mediating reactivity in small compartments, the formation kinetics of zymonic acid (ZA) is measured in submicron aerosols (average radius = 240 nm) using mass spectrometry. Formation of ZA, from a condensation reaction of two pyruvic acid (PA) molecules, proceeds over days in bulk solutions, while in submicron aerosols occurs in minutes. The experimental results are replicated in a kinetic model using an apparent interfacial reaction rate coefficient of krxn = 0.9 ± 0.2 × 10-3 M-1 · s-1. The simulation reveals that surface activity of PA coupled with enhanced interfacial reaction rate drive accelerated ZA formation in aerosols. Experimental and simulated results provide compelling evidence that the condensation reaction of PA occurs exclusively at the aerosol interface with a reaction rate coefficient that is enhanced by 4 orders of magnitudes (~104) relative to what is estimated for macroscale solutions.
Supplementary materials
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Supporting Data, Experimental and Computational Methods
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