Hygroscopicity of mixed glycerol/Mg(NO₃)₂/Water droplets affected by the interaction between magnesium ions and glycerol molecules

Tropospheric aerosols are usually complex mixtures of inorganic and organic components, which can influence the hygroscopicities of each other. In this research, we applied confocal Raman technology combined with optical microscopy to investigate the relationship between the hygroscopic behavior and the molecular interactions of mixed glycerol/Mg(NO₃)₂/water droplets. Raman spectra provide detailed structural information about the interactions between glycerol molecules and Mg²⁺ ions, as well as information about the interactions between glycerol and NO₃^- ions through electrostatic interaction and hydrogen bonding. The change of the CH₂ stretching band of glycerol molecules in mixed droplets suggests that the backbone structures of glycerol mainly transform from αα to γγ in the dehumidifying process, and the additional Mg²⁺ ions strongly influence the structure of glycerol molecules. Because the existence of glycerol suppresses the crystallization of Mg(NO₃)₂·6H₂O in the dehumidifying process, Mg(NO₃)₂ molecules in mixed droplets form an amorphous state rather than forming crystals of Mg(NO₃)₂·6H₂O when the relative humidity is lower than 17.8%. Moreover, in mixed droplets, the molar ratio of NO₃^- to glycerol is higher in the center than in the outer region.