Ioana Stefan scite author profile

Ioana Stefan

2Publications

14Citation Statements Received

45Citation Statements Given

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Carol Davila University of Medicine and Pharmacy

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Sorption of Phenobarbital and Amobarbital on Na-montmorillonite

Stefan¹,

Stefan²,

Hrubaru³

et al. 2001

Rev. Chim.

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In order to characterize the sorption kinetics of phenobarbital sodium and amobarbital sodium on natural Na � montmorillonite, the influence of the initial drug concentration and clay particles sizes was investigated. Equilibrium isotherms have been measured and analyzed using a Langmuir isotherm model. The affinity of drugs sorbed onto clay varied in the following descending order: phenobarbital sodium ] amobarbital sodium, respectively 11.2 and 9.1 mg/g. Also, sorption of phenobarbital sodium and amobarbital sodium on Na-montmorillonite was studied as a function of pH. The results show that adsorption of the drugs is highest below the pHZPC due the neutrality of the drugs which adsorbs via an attraction of the positively charged surface sites at lower pH by weak van der Waals forces.

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Influence of Internal Structure of the Sorbents on Diazepam Sorption from Simulated Intestinal Fluid

Stefan

Negoita

et al. 2021

Applied Sciences

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The capacity of natural Na-montmorillonite and activated charcoal for sorption of diazepam from simulated intestinal fluid (SIF) was studied. The main characteristics of the sorbents were determined. In order to characterize the sorption process of diazepam the influence of the pH, contact time and ethanol presence in SIF was analyzed. Adsorption isotherms for the diazepam-activated charcoal and diazepam-natural Na-montmorillonite systems were determined. The Langmuir isotherm model provided a very good description of diazepam sorption. Furthermore, the pH-drift method was used to determine the specific pH at zero point of charge (pHzpc) of the sorbents. The obtained results show that the internal structure of the sorbents and pH of the SIF solutions are very important for diazepam sorption. Both the surface of the activated charcoal and natural Na-montmorillonite are positively charged below the pHzpc so the sorption of diazepam is higher below this point and occur by van der Waals forces. The presence of ethanol in simulated intestinal fluid lowers the adsorption of diazepam on both sorbents.

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Ioana Stefan

Sorption of Phenobarbital and Amobarbital on Na-montmorillonite

Influence of Internal Structure of the Sorbents on Diazepam Sorption from Simulated Intestinal Fluid

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