Add to ORKGCarboxylic acids have been detected in particles collected in various regions of the world. Here, we use experiments and Born–Oppenheimer molecular dynamics simulations to better understand the mechanism of particle formation from gas phase mixtures of formic acid (HCOOH), (CH3)3N, and water vapor. A flow reaction cell coupled to two scanning mobility particle sizers has been used to measure particle size, absolute number of particles and kinetics of particle formation. Experimental results show that the addition of (CH3)3N to a mixture of HCOOH and water vapor results in a dramatic increase in particle formation. Simulation results indicate that the ion-pair formation on the water surface involves direct proton transfer between HCOOH and (...
The formation of particles from precursor vapors is an important source of atmospheric aerosol. Rese...
Lack of knowledge about the mechanisms underlying new particle formation and their subsequent growth...
We explore the morphologies of multicomponent nanoparticles through atomistic molecular dynamics sim...
Carboxylic acids have been detected in particles collected in various regions of the world. Here, we...
Atmospheric particles negatively affect human health, limit visibility and impact climate. Their de...
In this study, research has been conducted to investigate the formation and impacts of aerosols in t...
Atmospheric aerosols reduce visibility, adversely affect human health, and influence the climate. H...
New particle formation (NPF) from gaseous precursors as a significant source of aerosol needs to be ...
New particle formation (NPF) from gaseous precursors as a significant source of aerosol needs to be ...
Aerosol particles have profound impacts on human health, atmospheric radiation, and cloud microphysi...
New particle formation from gas-to-particle conversion represents a dominant source of atmospheric p...
Johnston, Murray V.The goal of this dissertation is to gain a more complete understanding of the che...
The formation of particles from precursor vapors is an important source of atmospheric aerosol. Rese...
Atmospheric particles are notorious for their effects on human health and visibility and are known t...
The formation of atmospheric aerosol particles from condensable gases is a dominant source of partic...
The formation of particles from precursor vapors is an important source of atmospheric aerosol. Rese...
Lack of knowledge about the mechanisms underlying new particle formation and their subsequent growth...
We explore the morphologies of multicomponent nanoparticles through atomistic molecular dynamics sim...
Carboxylic acids have been detected in particles collected in various regions of the world. Here, we...
Atmospheric particles negatively affect human health, limit visibility and impact climate. Their de...
In this study, research has been conducted to investigate the formation and impacts of aerosols in t...
Atmospheric aerosols reduce visibility, adversely affect human health, and influence the climate. H...
New particle formation (NPF) from gaseous precursors as a significant source of aerosol needs to be ...
New particle formation (NPF) from gaseous precursors as a significant source of aerosol needs to be ...
Aerosol particles have profound impacts on human health, atmospheric radiation, and cloud microphysi...
New particle formation from gas-to-particle conversion represents a dominant source of atmospheric p...
Johnston, Murray V.The goal of this dissertation is to gain a more complete understanding of the che...
The formation of particles from precursor vapors is an important source of atmospheric aerosol. Rese...
Atmospheric particles are notorious for their effects on human health and visibility and are known t...
The formation of atmospheric aerosol particles from condensable gases is a dominant source of partic...
The formation of particles from precursor vapors is an important source of atmospheric aerosol. Rese...
Lack of knowledge about the mechanisms underlying new particle formation and their subsequent growth...
We explore the morphologies of multicomponent nanoparticles through atomistic molecular dynamics sim...
