Litcius/Paper detail

Acids at the Edge: Why Nitric and Formic Acid Dissociations at Air–Water Interfaces Depend on Depth and on Interface Specific Area

Miguel de la Puente, Rolf David, Axel Gomez, Damien Laage

2022Journal of the American Chemical Society79 citationsDOIOpen Access PDF

Abstract

Whether the air-water interface decreases or increases the acidity of simple organic and inorganic acids compared to the bulk is critically important in a broad range of environmental and biochemical processes. However, a consensus has not yet been achieved on this key question. Here we use machine learning-based reactive molecular dynamics simulations to study the dissociation of paradigmatic nitric and formic acids at the air-water interface. We show that the local acidity profile across the interface is determined by changes in acid and conjugate base solvation and that the acidity decreases abruptly over a transition region of a few molecular layers. At the interface, both acids are weaker than in the bulk due to desolvation. In contrast, acidities below the interface reach a plateau and are all the stronger compared to those in the bulk as the surface to volume ratio of the aqueous phase is large, due to the growing impact of the stabilization of the released proton at the surface of the water. These results imply that the measured degree of dissociation sensitively depends on the experimental probing length and system size and suggest a molecular explanation for the contrasting experimental results. The aerosol size dependence of acidity has important consequences for atmospheric chemistry.

Topics & Concepts

ChemistryFormic acidInterface (matter)Nitric acidEnhanced Data Rates for GSM EvolutionInorganic chemistryOrganic chemistryMoleculeTelecommunicationsGibbs isothermComputer scienceSpectroscopy and Quantum Chemical StudiesElectrochemical Analysis and ApplicationsAdvanced Chemical Sensor Technologies