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Intra-cluster Charge Migration upon Hydration of Protonated Formic Acid Revealed by Anharmonic Analysis of Cold Ion Vibrational Spectra

Thien Khuu, Tim Schleif, Ahmed Mohamed, Sayoni Mitra, Mark A. Johnson, Jesús Valdiviezo, Joseph P. Heindel, Teresa Head‐Gordon

2023The Journal of Physical Chemistry A16 citationsDOI

Abstract

The rates of many chemical reactions are accelerated when carried out in micron-sized droplets, but the molecular origin of the rate acceleration remains unclear. One example is the condensation reaction of 1,2-diaminobenzene with formic acid to yield benzimidazole. The observed rate enhancements have been rationalized by invoking enhanced acidity at the surface of methanol solvent droplets with low water content to enable protonation of formic acid to generate a cationic species (protonated formic acid or PFA) formed by attachment of a proton to the neutral acid. Because PFA is the key feature in this reaction mechanism, vibrational spectra of cryogenically cooled, microhydrated PFA·(H 2 O) n =1–6 were acquired to determine how the extent of charge localization depends on the degree of hydration. Analysis of these highly anharmonic spectra with path integral ab initio molecular dynamics simulations reveals the gradual displacement of the excess proton onto the water network in the microhydration regime at low temperatures with n = 3 as the tipping point for intra-cluster proton transfer.

Topics & Concepts

Formic acidProtonationChemistryProtonAnharmonicityCluster (spacecraft)HydroniumPhotochemistryIonPhysical chemistryOrganic chemistryPhysicsProgramming languageComputer scienceQuantum mechanicsMass Spectrometry Techniques and ApplicationsQuantum, superfluid, helium dynamicsAdvanced Chemical Physics Studies
Intra-cluster Charge Migration upon Hydration of Protonated Formic Acid Revealed by Anharmonic Analysis of Cold Ion Vibrational Spectra | Litcius