Litcius/Paper detail

Photodecay of guaiacol is faster in ice, and even more rapid on ice, than in aqueous solution

Ted Hullar, Fernanda C. Bononi, Zekun Chen, Danielle Magadia, Oliver Palmer, Theo Tran, Dario Rocca, Oliviero Andreussi, Davide Donadio, Cort Anastasio

2020Environmental Science Processes & Impacts35 citationsDOI

Abstract

Snowpacks contain a wide variety of inorganic and organic compounds, including some that absorb sunlight and undergo direct photoreactions. How the rates of these reactions in, and on, ice compare to rates in water is unclear: some studies report similar rates, while others find faster rates in/on ice. Further complicating our understanding, there is conflicting evidence whether chemicals react more quickly at the air-ice interface compared to in liquid-like regions (LLRs) within the ice. To address these questions, we measured the photodegradation rate of guaiacol (2-methoxyphenol) in various sample types, including in solution, in ice, and at the air-ice interface of nature-identical snow. Compared to aqueous solution, we find modest rate constant enhancements (increases of 3- to 6-fold) in ice LLRs, and much larger enhancements (of 17- to 77-fold) at the air-ice interface of nature-identical snow. Our computational modeling suggests the absorption spectrum for guaiacol red-shifts and increases on ice surfaces, leading to more light absorption, but these changes explain only a small portion (roughly 2 to 9%) of the observed rate constant enhancements in/on ice. This indicates that increases in the quantum yield are primarily responsible for the increased photoreactivity of guaiacol on ice; relative to solution, our results suggest that the quantum yield is larger by a factor of roughly 3-6 in liquid-like regions and 12-40 at the air-ice interface.

Topics & Concepts

GuaiacolIce creamAqueous solutionSnowPhotodegradationChemistryIce formationEnvironmental chemistryEnvironmental scienceMeteorologyAtmospheric sciencesOrganic chemistryGeologyFood scienceGeographyCatalysisPhotocatalysisSpectroscopy and Quantum Chemical StudiesAtmospheric chemistry and aerosolsAtmospheric Ozone and Climate