Aerosol− cloud interactions account for the largest uncertainty in current estimates of
changes in radiative forcing according to the most recent IPCC report. 1 The term “aerosol …

We analyse the development of a radiation fog event and its gradual transition from optically
thin fog in a stable boundary layer to well-mixed optically thick fog. A comparison of …

A field study on fog chemistry and aqueous-phase processing of aerosol particles was
conducted in Fresno, California's San Joaquin Valley (SJV) during wintertime. Fog droplets …

Aerosols and clouds play central roles in atmospheric chemistry and physics, climate, air
pollution, and public health. The mechanistic understanding and predictability of aerosol …

The distribution of acidity and solute concentration among the various droplet sizes in a fog
or cloud and the effect of the evaporation-condensation cycle on the composition and size …

We present a novel kinetic multi-layer model for gas-particle interactions in aerosols and
clouds (KM-GAP) that treats explicitly all steps of mass transport and chemical reaction of …

Measurements of the scavenging efficiency of aerosol particles in fog are presented. The
scavenging efficiency as a function of size for accumulation-mode particles is presented …

There is a growing understanding that secondary organic aerosol (SOA) can form through
reactions in atmospheric waters (ie, clouds, fogs, and aerosol water). In clouds and wet …

Under certain conditions mass transfer limitations on the growth of cloud condensation
nuclei (CCN) may have a significant impact on the number of droplets that can form in a …

Cloud and fog droplets efficiently scavenge and process water-soluble compounds and,
thus, modify the chemical composition of the gas and particle phases. The concentrations of …