Your search keyword '"H. dn"' showing total 2 results

1. Dynamic performance of duolayers at the air/water interface. 2. Mechanistic insights from all-atom simulations.

Author

Christofferson AJ, Yiapanis G, Leung AH, Prime EL, Tran DN, Qiao GG, Solomon DH, and Yarovsky I

Subjects

Air, Hydrogen Bonding, Molecular Dynamics Simulation, Surface Properties, Ethylene Glycols chemistry, Povidone chemistry, Water chemistry

Abstract

The novel duolayer system, comprising a monolayer of ethylene glycol monooctadecyl ether (C18E1) and the water-soluble polymer poly(vinylpyrrolidone) (PVP), has been shown to resist forces such as wind stress to a greater degree than the C18E1 monolayer alone. This paper reports all-atom molecular dynamics simulations comparing the monolayer (C18E1 alone) and duolayer systems under an applied force parallel to the air/water interface. The simulations show that, due to the presence of PVP at the interface, the duolayer film exhibits an increase in chain tilt, ordering, and density, as well as a lower lateral velocity compared to the monolayer. These results provide a molecular rationale for the improved performance of the duolayer system under wind conditions, as well as an atomic-level explanation for the observed efficacy of the duolayer system as an evaporation suppressant, which may serve as a useful guide for future development for thin films where resistance to external perturbation is desirable.

Published

2014

2. Molecular interactions behind the synergistic effect in mixed monolayers of 1-octadecanol and ethylene glycol monooctadecyl ether.

Author

Tran DN, Prime EL, Plazzer M, Leung AH, Yiapanis G, Christofferson AJ, Yarovsky I, Qiao GG, and Solomon DH

Subjects

Air, Hydrogen Bonding, Surface Properties, Water chemistry, Ethylene Glycol chemistry, Ethylene Glycols chemistry, Fatty Alcohols chemistry, Molecular Dynamics Simulation

Abstract

Mixed monolayers of 1-octadecanol (C18OH) and ethylene glycol monooctadecyl ether (C18E1) were studied to assess their evaporation suppressing performance. An unexpected increase in performance and stability was found around the 0.5:0.5 bicomponent mixture and has been ascribed to a synergistic effect of the monolayers. Molecular dynamics simulations have attributed this to an additional hydrogen bonding interaction between the monolayer and water, due to the exposed ether oxygen of C18E1 in the mixed system compared to the same ether oxygen in the pure C18E1 system. This interaction is maximized around the 0.5:0.5 ratio due to the particular interfacial geometry associated with this mixture.

Published

2013