Jack S. Johnson
YOU?
Author Swipe
View article: Sulfuric Acid Nucleation Potential Model Applied to Complex Reacting Systems in the Atmosphere
Sulfuric Acid Nucleation Potential Model Applied to Complex Reacting Systems in the Atmosphere Open
Atmospheric aerosol particles impact Earth's radiation balance by acting as seeds for cloud droplet formation. Over half of global cloud seed particles are formed by nucleation, a process where gas‐phase compounds react to form stable part…
View article: Role of Methanesulfonic Acid in Sulfuric Acid–Amine and Ammonia New Particle Formation
Role of Methanesulfonic Acid in Sulfuric Acid–Amine and Ammonia New Particle Formation Open
Aerosol nucleation accounts for over half of all seed particles for cloud droplet formation. In the atmosphere, sulfuric acid (SA) nucleates with ammonia, amines, oxidized organics, and many more compounds to form particles. Studies have a…
View article: Ion–Molecule Rate Constants for Reactions of Sulfuric Acid with Acetate and Nitrate Ions
Ion–Molecule Rate Constants for Reactions of Sulfuric Acid with Acetate and Nitrate Ions Open
Atmospheric nucleation from precursor gases is a significant source of cloud condensation nuclei in the troposphere and thus can affect the Earth's radiative balance. Sulfuric acid, ammonia, and amines have been identified as key nucleatio…
View article: Preventing spread of aerosolized infectious particles during medical procedures: A lab-based analysis of an inexpensive plastic enclosure
Preventing spread of aerosolized infectious particles during medical procedures: A lab-based analysis of an inexpensive plastic enclosure Open
Severe viral respiratory diseases, such as SARS-CoV-2, are transmitted through aerosol particles produced by coughing, talking, and breathing. Medical procedures including tracheal intubation, extubation, dental work, and any procedure inv…
View article: A sulfuric acid nucleation potential model for the atmosphere
A sulfuric acid nucleation potential model for the atmosphere Open
Observations over the last decade have demonstrated that the atmosphere contains potentially hundreds of compounds that can react with sulfuric acid to nucleate stable aerosol particles. Consequently, modeling atmospheric nucleation requir…
View article: Experimental and Theoretical Study on the Enhancement of Alkanolamines on Sulfuric Acid Nucleation
Experimental and Theoretical Study on the Enhancement of Alkanolamines on Sulfuric Acid Nucleation Open
Alkanolamines such as monoethanolamine (MEA), diethanolamine (DEA), and triethanolamine (TEA) are extensively used for CO2 capture and consumer products. Despite their prevalence in industrial applications, the fate of alkanolamines in the…
View article: Comment on acp-2022-35
Comment on acp-2022-35 Open
Abstract. Observations over the last decade have demonstrated that the atmosphere contains potentially hundreds of compounds that can react with sulfuric acid to nucleate stable aerosol particles. Consequently, modeling atmospheric nucleat…
View article: A Sulfuric Acid Nucleation Potential Model for the Atmosphere
A Sulfuric Acid Nucleation Potential Model for the Atmosphere Open
Observations over the last decade have demonstrated that the atmosphere contains potentially hundreds of compounds that can react with sulfuric acid to nucleate stable aerosol particles. Consequently, modeling atmospheric nucleation requir…
View article: A simple, effective enclosure with disposable coverings for inexpensive containment of aerosolized COVID viruses during tracheal intubation and extubation
A simple, effective enclosure with disposable coverings for inexpensive containment of aerosolized COVID viruses during tracheal intubation and extubation Open
Structured Abstract Background SARS-CoV-2 (COVID-19) is a severe respiratory virus that can be transmitted through aerosol particles produced by coughing, talking, and breathing. Medical procedures used to treat severe cases such as trache…