Diamine/Silane-Modified controlled pore glass: The covalent attachment reaction from aqueous solution and the mechanism of reaction of bound diamine with copper(II)

Abstract

The reaction of N-2-aminoethyl-3-aminopropyltrimethyoxysilane (en-silane) with the surface of controlled pore glass (CPG) in aqueous solution was examined. The reaction appears to involve the rapid (ca. l min) formation of a covalently bound monolayer of en-silane at room temperature. Multilayers of bound polymeric en-silane can be obtained by reaction at elevated temperature. The latter reaction is slower, presumably because of the more stringent steric requirements of polymer formation in chain growth away from the CPG surface. For en-silane coverages ranging from 1.7 to 8.5 μ mol m -2, the mechanism for the complexation of copper(II) by ethylenediamine (en) bound to a CPG surface by reaction of en-silane with CPG was also investigated by thermometric and potentiometric titrimetry. A two-step mechanism is proposed. The data indicate that the first step of the surface reaction involves formation of a Cu(en) 4 complex as opposed to the Cu(en) complex formed in the first step of the solution reaction. The second step results in a complex similar to the Cu(en) 2; species formed in solution.