posted on 2021-06-04, 22:03authored byChaya Weeraratna, Chandika Amarasinghe, Wenchao Lu, Musahid Ahmed
The properties of aerosols are of
paramount importance in atmospheric
chemistry and human health. The hydrogen bond network of glycerol–water
aerosols generated from an aqueous solution with different mixing
ratios is probed directly with X-ray photoelectron spectroscopy. The
carbon and oxygen X-ray spectra reveal contributions from gas and
condensed phase components of the aerosol. It is shown that water
suppresses glycerol evaporation up to a critical mixing ratio. A dielectric
analysis using terahertz spectroscopy coupled with infrared spectroscopy
of the bulk solutions provides a picture of the microscopic heterogeneity
prevalent in the hydrogen bond network when combined with the photoelectron
spectroscopy analysis. The hydrogen bond network is composed of three
intertwined regions. At low concentrations, glycerol molecules are
surrounded by water forming a solvated water network. Adding more
glycerol leads to a confined water network, maximizing at 22 mol %,
beyond which the aerosol resembles bulk glycerol. This microscopic
view of hydrogen bonding networks holds promise in probing evaporation,
diffusion dynamics, and reactivity in aqueous aerosols.