Hydrolysis and Dehydration Reactions of Exchangeable Cu2+ on Hectorite

Abstract

Electron spin resonance (ESR) analysis of Cu²⁺-hectorite suspensions provides evidence for the surface-induced hydrolysis of Cu(H₂O)₆²⁺ at low pH and surface-inhibited hydrolysis (or precipitation) at high pH. Dehydration of the hectorite by heating to 110°C appears to promote hydrolysis in high pH clays further. Heating to even higher temperatures removes ligand water from Cu²⁺, allowing the metal ion to coordinate with silicate oxygen atoms. The planar Cu(H₂O)₄²⁺ ion predominates in the interlamellar regions of hectorite that has been air dried or heated to temperatures of 110°C or lower, but more extreme thermal treatment changes the apparent orientation of the Cu²⁺-ligand axes as some or all of the four water ligands are removed, A loss in ESR signal intensity upon heating Cu²⁺-hectorite above 110°C is evidence for lowered symmetry of the dehydrated, surface-coordinated Cu²⁺ ion.