S. G. de Bussetti scite author profile

S. G. de Bussetti

5Publications

155Citation Statements Received

22Citation Statements Given

How they've been cited

185

135

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Affiliations

Universidad Nacional del Sur, Centro Científico Tecnológico - Bahía Blanca

Publications

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Adsorption of Poly(Vinyl Alcohol) on Montmorillonite

Bussetti

Ferreiro

2004

Clays and clay miner.

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The adsorption of poly(vinyl alcohol) (PVA) on montmorillonites saturated with calcium (Ca-Mt) and sodium (Na-Mt) as a function of the pH value and PVA concentration in aqueous solution was studied. Owing to the binding effect of the bivalent cation, the adsorption of PVA on Ca-Mt decreases as the pH of the suspension increases, whereas adsorption on Na-Mt is unaffected by the suspension pH. The adsorption maximum of PVA (pH 6) on Ca-Mt was 151.2 mg of PVA g−1 of clay, which is considerably lower than that on Na-Mt (496.2 mg g−1). These adsorption data coincide with the basal spacings obtained for the clays: 1.72 and 2.26 nm for Ca-Mt and Na-Mt, respectively. Sodium permits a greater separation between the clay laminae than calcium, but in both clays the presence of the polymer gives rise to a material in which PVA is intercalated between the laminae and is also adsorbed on the external surface. Adsorption is a slow process and is irreversible in both clays.

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Adsorption of Quinoline from Aqueous Solutions by Some Clays and Oxides

Helmy

Bussetti

Ferreiro

1983

Clays and clay miner.

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The adsorption isotherms of quinoline from aqueous solutions by some clays and oxides varied from the S type for silica to a form somewhat similar to the Langmuir type for montmorillonite and silicaalumina. The adsorption reaction reached equilibrium in about 2 hr and was irreversible. X-ray powder diffraction studies showed that a single layer of molecules is adsorbed on montmorillonite and that the molecules lie either flat or in an upright position depending on surface coverage. The adsorption showed high sensitivity towards pH, attaining a maximum at pH 6. The decrease below pH 6 was due to competition with protons as well as to problems inherent in surface packing of positively charged quinoline molecules. The decrease above pH 6 is probably due to more exchangeable metallic cations on the surface leading to a favored sorption of water over organic molecules.

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Surface Area Evaluation of Montmorillonite

Helmy

Ferreiro

Bussetti

1999

Journal of Colloid and Interface Science

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Surface areas of kaolin, α-Fe 2 O 3 and hydroxy-Al montmorillonite

Helmy¹,

Ferreiro²,

Bussetti³

et al. 1998

Colloid & Polymer Science

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Interaction of Fe-oxyhydroxide colloidal particles with montmorillonite

1995

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A B S T RA CT: Interaction between positively charged Fe-oxyhydroxide (13-FeOOH) particles and negatively charged particles of montmorillonite was studied as a function of particle concentration, pH and time. The results showed that the clay particles appear to bridge between FeOOH particles leading to associations in which the ratio of positive to negative particles varied between 1.4 and 2.56 depending on pH and particle concentrations. The data could be represented by isotherms of interaction of the high affinity type and, together with the interaction kinetics, could be described by Langmuir type formulations.

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S. G. de Bussetti

Adsorption of Poly(Vinyl Alcohol) on Montmorillonite

Adsorption of Quinoline from Aqueous Solutions by Some Clays and Oxides

Surface Area Evaluation of Montmorillonite

Surface areas of kaolin, α-Fe 2 O 3 and hydroxy-Al montmorillonite

Interaction of Fe-oxyhydroxide colloidal particles with montmorillonite

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