Aerosol　plays　a　vital　role　in　atmosphere　pollution,　climate　change,　and　health　hazard.　The　mass　transfer　process　between　the　aerosol　particles　and　their　ambient　gas　critically　affects　the　evolution　of　aerosol　particles　and　their　phase　states.　A　novel　kinetic　model　is　proposed　to　describe　the　gas-particle　mass　transfer　among　a　particle　bulk,　a　gas-particle　interface　and　the　ambient　sources,　based　on　Maxwell-Stefan　relations　and　Langmuir　adsorption　theory.　Two　kinds　of　typical　aerosol,　which　are　respectively　consisted　of　oxalic　acid　solution　(aqueous　solutions)　and　sucrose　solution　(easily　to　form　a　glassy　state　in　a　special　condition),　are　chosen　to　demonstrate　the　feasibility　of　this　proposed　kinetic　model,　along　with　the　available　experimental　data.　The　results　showed　that　aerosol　particles,　which　could　kinetically　form　amorphous　states　during　evaporation,　are　limited　by　the　bulk　viscosity.　In　contrast,　the　bulks　consisting　of　aqueous　solutions　are　controlled　by　the　surface　adsorption　and　desorption　of　molecules　during　mass　transport.　©　2020　Elsevier　B.V.