Chromatographic Utilization of the Sorption Behaviour of Some Nitrophenols on Acid-Treated Alumina

• Main Authors: Sangeeta Jha, G.L. Mundhara, R.M. Sharma, J.S. Tiwari
• Format: Article
• Language: English
• Published: Hindawi - SAGE Publishing 1992-06-01
• Series: Adsorption Science & Technology
• Online Access: https://doi.org/10.1177/026361749200900204

Alumina for adsorption chromatography has been subjected to chemical pretreatment with HNO 3 and CH 3 COOH of various concentrations and samples of surface-phase pH 1.5–9.0 [Al 2 O 3 (n)] and 3.0–9.0 [Al 2 O 3 (a)] prepared. The surface area, NO − 3 and CH 3 COO − ion content and OH − ion-exchange capacity of the samples were determined. Sorption/desorption studies of the nitrophenols, 2,4-dinitrophenol (DNP) and 2,4,6-trinitrophenol (picric acid, PA), from aqueous solution under a variety of experimental conditions, were carried out on the substrates. Sorption was found to depend on the pH of the substrate and the acid used for pretreatment. Mximum sorption was observed at pH 6.0 [Al 2 O 3 (n)] and pH 5.0 [Al 2 O 3 (a)]. The process was fast (10 min to 24 h) and exothermic (30–60°C), with low values for the isosteric heats of adsorption (−7 to −64 kJ/mol). The desorption efficiency and retarding influence of the anions on adsorption was in the order: PO 3– 4 > C 2 O 2– 4 > SO 2– 4 > CH 3 COO − > NO − 3 Acid treatment, and hence the anion present (NO − 3 or CH 3 COO − ), appears to modify the sorption properties of alumina significantly. Anion-exchange sorption and weak chemical interactions (hydrogen bonding and π-electron interaction) appear to control the sorption of the solutes on pretreated alumina. The distribution coefficients for adsorption and desorption have been determined, and on the basis of these data the elution behaviour and column chromatography of the system examined.