Thermodynamics, adsorbate oxidation relationship

If a surface precipitate of metal hydroxy-polymer has formed on an adsorbent, the -pH relationship for the coated adsorbent should resemble closely that observed for particles consisting purely of the hydroxy-polymer or the hydrous oxide of the metal (15). This kind of evidence for Co(ll), La(lII), and Th(lV) precipitation on silica colloids was cited by James and Healy (15). It should be noted, however, that the increase in C toward a maximum value often occurs at pH values well below that required thermodynamically to induce bulk-solution homogeneous precipitation of a metal hydrous oxide (15, 16). If surface precipitation is in the incipient stage under these conditions, it must be a nucleation phenomenon. James and Healy (15) argue that the microscopic electric field at the surface of a charged adsorbent is sufficiently strong to lower the vicinal water activity and induce precipitation at pH values below that required for bulk-solution precipitation of a metal hydrous oxide. 

The oxide surface structure and the type of adsorbent pretreatment influence the thermodynamic characteristics of interfacial water (Gibbs free energy, heat of immersion in water, activation energy of the molecular mobility, etc.). The analyzed structural and other effects cause a significant scatter in the relationship between the specific surface area and the and AH values (Figure 1.215). 

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