Atmospheric oxidation of sulfur dioxide (SO2) forms sulfate-containing aerosol particles that
impact air quality, climate, and human and ecosystem health. It is well-known that in-cloud …

This Review aims to summarize the current understanding of bulk tropospheric aqueous-
phase chemistry. Because a complete review of all developments in this area would be …

The formation mechanism of aerosol sulfate during wintertime haze events in China is still
largely unknown. As companions, SO2 and transition metals are mainly emitted from coal …

Fine-particle pollution associated with winter haze threatens the health of more than 400
million people in the North China Plain. Sulfate is a major component of fine haze particles …

Sulfate radical (SO 4 radical dot−) is believed to be one of the most highly reactive oxidants,
as superior as hydroxyl radical (HO radical dot), for various organic/inorganic contaminants …

The acidity of aqueous atmospheric solutions is a key parameter driving both the partitioning
of semi-volatile acidic and basic trace gases and their aqueous-phase chemistry. In addition …

Emissions of anthropogenic air pollutants in East Asia significantly influence the regional
climate, cause environmental deterioration and threaten public health. Single particle …

Atmospheric sulfate aerosols have important impacts on air quality, climate, and human and
ecosystem health. However, current air-quality models generally underestimate the rate of …

A regional haze with daily PM2. 5 (fine particulate matters with diameters less than 2.5 µm)
exceeding 500 µg/m3 lasted for several days in January 2013 over North China, offering an …

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 …