Molecular Simulation of Naphthalene, Phenanthrene, and Pyrene Adsorption on MCM-41

Abstract: The adsorption of three typical polycyclic aromatic hydrocarbons (PAHs), naphthalene, phenanthrene, and pyrene with different ring numbers, on a common mesoporous material (MCM-41) was simulated based on a well-validated model. The adsorption equilibriums (isotherms), states (angle distributions and density profiles), and interactions (radial distribution functions) of three PAHs within the mesopores were studied in detail. The results show that the simulated isotherms agreed with previous experimental results… Show more

“…8 ) show that the centre of each ring on both sides of the PAH molecular plane is negatively charged and corresponds with delocalized π electrons. Indeed, the area of the π -electron plane spatially increases when the number of rings increased, as demonstrated also by Yang and co-workers [40] . Hence, the heavier molecular weight of the PAHs offers higher surface availability for interaction with positively charged amino groups.…”

Amino groups modified SBA-15 for dispersive-solid phase extraction in the analysis of micropollutants by QuEchERS approach

“…8 ) show that the centre of each ring on both sides of the PAH molecular plane is negatively charged and corresponds with delocalized π electrons. Indeed, the area of the π -electron plane spatially increases when the number of rings increased, as demonstrated also by Yang and co-workers [40] . Hence, the heavier molecular weight of the PAHs offers higher surface availability for interaction with positively charged amino groups.…”

Amino groups modified SBA-15 for dispersive-solid phase extraction in the analysis of micropollutants by QuEchERS approach

Removal of naphthalene from wastewaters by adsorption: a review of recent studies

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