Litcius/Paper detail

Enhanced uptake of glyoxal at the acidic nanoparticle interface: implications for secondary organic aerosol formation

Qiuju Shi, Weina Zhang, Yuemeng Ji, Jiaxin Wang, Dandan Qin, Jiangyao Chen, Yanpeng Gao, Guiying Li, Taicheng An

2020Environmental Science Nano63 citationsDOI

Abstract

Glyoxal (GL) exhibits a preferential tendency to the acidic nanoparticle interface, and sulfuric acid (SA) has a catalytic effect on hydration reaction of glyoxal in the aqueous phase.

Topics & Concepts

GlyoxalSulfuric acidNanoparticleAerosolChemistryAqueous solutionCatalysisAqueous two-phase systemInorganic chemistryPhase (matter)PhotochemistryOrganic chemistryMaterials scienceNanotechnologyAtmospheric chemistry and aerosolsIndustrial Gas Emission ControlIndoor Air Quality and Microbial Exposure
Enhanced uptake of glyoxal at the acidic nanoparticle interface: implications for secondary organic aerosol formation | Litcius