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Free Energy Study Of H2o, N2o5, So2, And O-3 Gas Sorption By Water Droplets/Slabs

JOURNAL OF CHEMICAL PHYSICS(2018)

引用 16|浏览18
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摘要
Understanding gas sorption by water in the atmosphere is an active research area because the gases can significantly alter the radiation and chemical properties of the atmosphere. We attempt to elucidate the molecular details of the gas sorption of water and three common atmospheric gases (N2O5, SO2, and O-3) by water droplets/slabs in molecular dynamics simulations. The system size effects are investigated, and we show that the calculated solvation free energy decreases linearly as a function of the reciprocal of the number of water molecules from 1/215 to 1/1000 in both the slab and the droplet systems. By analyzing the infinitely large system size limit by extrapolation, we find that all our droplet results are more accurate than the slab results when compared to the experimental values. We also show how the choice of restraints in umbrella sampling can affect the sampling efficiency for the droplet systems. The free energy changes were decomposed into the energetic Delta U and entropic -T Delta S contributions to reveal the molecular details of the gas sorption processes. By further decomposing Delta U into Lennard-Jones and Coulombic interactions, we observe that the Delta U trends are primarily determined by local effects due to the size of the gas molecule, charge distribution, and solvation structure around the gas molecule. Moreover, we find that there is a strong correlation between the change in the entropic contribution and the mean residence time of water, which is spatially nonlocal and related to the mobility of water. Published by AIP Publishing.
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关键词
o3 gas sorption,water droplets/slabs,h2o,n2o5
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