Permeation dynamics of small molecules through silica membranes: Molecular dynamics study

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Permeation mechanism of inorganic gases was studied experimentally and theoretically through microporous silica membranes prepared by the sol ᎐ gel method. Inorganic gas permeation was measured using the membranes with subnano pores in diameter. The permeance of He increased with increasing temperat

Permeation of H and D through palladium membrane was studied in real-time with Elastic Recoil Detection Analysis (ERDA). Concentration depth profile of hydrogen at the low pressure side of the membrane was followed by successive recording of ERDA spectra. Bulk concentration of hydrogen was high at l

data suggest. In Ref. (2) the predicted pH pzc is 01.8, about Molecular statics calculations on gas-phase and solvated clusters 4 log units lower than the experimental value. References and on gas-phase and solvated slabs representing aqueous species (7) and ( 5) presented a model including the sta

In order to investigate the nature of permeation of organic molecules through a nonpolar membrane in the presence of other molecular species, some model studies have been made with p-nitrophenol as an ionizable diffusate and N,N-dialkylamides and alkylxanthines as complexing agents. Effect of diethy

In this exploratory study, the methods of molecular dynamics and Brownian dynamics have been used to investigate the dynamics of ring formation in a simple, idealised, flexible molecule. Particular attention has been paid to the formation and persistence of the bond responsible for ring closure. The