Liquid–vapor interfaces, particularly those between aqueous solutions and air, drive
numerous important chemical and physical processes in the atmosphere and in the …

Conspectus Liquids are of overarching importance for the atmosphere, as 72% of the Earth's
surface is covered by oceans, a large number of liquid aerosol particles fill the air, and …

The heterogeneous interactions of gaseous ozone (O3) with seawater and with sea-salt
aerosols are known to generate volatile halogen species, which, in turn, lead to further …

Recent studies have shown that photochemical reactions occurring at the air–water interface
are a source of volatile organic compounds (VOCs) to the atmosphere. We report here the …

Conspectus The gas–liquid interface of water is environmentally relevant due to the
abundance of aqueous aerosol particles in the atmosphere. Aqueous aerosols often contain …

Adsorption and desorption of gases on liquid or solid substrates are involved in multiphase
processes and heterogeneous chemical reactions. The desorption energy (E des 0), which …

The reaction of ozone with sea-salt derived bromide is relevant for marine boundary layer
atmospheric chemistry. The oxidation of bromide by ozone is enhanced at aqueous …

The interaction of several simple electrolytes with uncharged insoluble monolayers is
studied on the basis of tensiometric and potentiometric data for the surface electrolyte …

Resorcinol and orcinol are simple members of the family of phenolic compounds present in
particulate matter in the atmosphere; they are amphiphilic in nature and thus surface active …

Proton-transfer-reaction (PTR) is a commonly applied ionization technique for mass
spectrometers, where hydronium ions (H 3 O+) transfer a proton to analytes with higher …