The size-mobility relationship of ions, aerosols, and other charged particle matter.
C Larriba-Andaluz, F Carbone - Journal of Aerosol Science, 2021 - Elsevier
Electrical Mobility is arguably the property upon which some of the most successful
classification criteria are based for aerosol particles and ions in the gas phase. Once the …
classification criteria are based for aerosol particles and ions in the gas phase. Once the …
[HTML][HTML] Calculation of the ion–ion recombination rate coefficient via a hybrid continuum-molecular dynamics approach
T Tamadate, H Higashi, T Seto… - The Journal of Chemical …, 2020 - pubs.aip.org
Accurate calculation of the ion–ion recombination rate coefficient has been of long-standing
interest as it controls the ion concentration in gas phase systems and in aerosols. We …
interest as it controls the ion concentration in gas phase systems and in aerosols. We …
The charge reduction rate for multiply charged polymer ions via ion–ion recombination at atmospheric pressure
T Tamadate, H Higashi, CJ Hogan… - Physical Chemistry …, 2020 - pubs.rsc.org
The charge reduction of multiply charged macromolecular ions via recombination with small
ions in the gas phase is commonly employed to modulate the charge on macromolecules …
ions in the gas phase is commonly employed to modulate the charge on macromolecules …
Effect of Brownian rotation on the drift velocity of a nanorod
GW Mulholland, C Hagwood - Journal of Aerosol Science, 2021 - Elsevier
A model set of equations including Brownian rotation dynamics is proposed to investigate
the role of rotation on the drift velocity of nanorods in the direction of an external field (such …
the role of rotation on the drift velocity of nanorods in the direction of an external field (such …