Article ID Journal Published Year Pages File Type
216780 The Journal of Chemical Thermodynamics 2009 5 Pages PDF
Abstract

The available hydroxyl groups inside the lamellar cavity of barium phosphate (BaP) reacted with the silylating agents (RO)3Si(CH2)3Lx (L1 = NH2, L2 = NH(CH2)2NH2, and L3 = NH(CH2)2 NH(CH2)2NH2), to yield organofunctionalized BaPSiL1, BaPSiL2 and BaPSiL3 nanomaterials. The amounts of organofunctional groups covalently attached to the inorganic layer were (1.24, 1.46, and 1.23) mmol · g−1, respectively. The basic nitrogen atoms attached to the distinct pendant organic chains adsorb divalent nickel and cobalt from aqueous solutions, as represented by well-established isotherms. The energetic effects caused by metallic cation interactions were determined through calorimetric titration at the solid/liquid interface and gave a net thermal effect that enabled enthalpy and equilibrium constant calculations. Complete thermodynamic results composed of exothermic enthalpy, negative free Gibbs energy and positive entropy result in a set of favourable cation/basic centre interactions, to indicate that these nanomaterials could be useful tools to eliminate undesirable cations from aqueous systems.

Related Topics
Physical Sciences and Engineering Chemical Engineering Chemical Engineering (General)
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