Criegee intermediates are reactive species formed in the ozonolysis of alkenes. Their
subsequent chemistry is critical to an accounting of OH production, aerosol formation, and …

Oxalic acid (OA), one of the most common organic acids in the Earth's atmosphere, is
expected to enhance the nucleation and growth of nanoparticles containing sulfuric acid …

Amino acids are important components of atmospheric aerosols. Despite the diversity of
amino acids structures, however, the role of amino acids with additional non-characteristic …

The influences of ammonia (NH3) on secondary organic aerosol (SOA) formation from
ozonolysis of styrene have been investigated using chamber experiments and quantum …

Amides are ubiquitous in atmosphere. However, the role of amides in new particle formation
(NPF) is poorly understood. Herein, the interaction of urea and formamide with sulfuric acid …

New particle formation (NPF) is an important source of atmospheric aerosols. Sulfuric acid
(SA) and water (W) are recognized as essential participating substances in the nucleation of …

The ozonolysis of sabinene has been computationally studied at multiple levels of theory.
The reaction proceeds through the so-called Criegee mechanism via the formation of a …

Monoterpenes are prevalent organic compounds emitted to the atmosphere, via biogenic
activities in various types of plants. Monoterpenes undergo atmospheric decomposition …

C6 hexenols are one of the most significant groups of volatile organic compounds with
biogenic emissions. The lack of corresponding kinetic parameters and product information …

Oxalic acid, which is one of the most common dicarboxylic acids, is expected to be an
important component of atmospheric aerosols. However, the contribution of oxalic acid to the …