Experimental data on the morphology of KCl microcrystals are interpreted from estimations of the possibility of growth of the (100) and (111)₂ faces. Ion attachment energy and water adsorption energy for five different growth sites on the (100) face were calculated for different solution concentrations c and temperature T = 298.15 K using the molecular interaction model of cluster formation applied to large cubic KCl clusters with specified growth site in the centre of one of the (100) face. The results show that, above the equilibrium concentration c₀ = 4.17 mol/dm³, attachment of ions is possible only for dislocation originated kink sites where the ion attachment energy is positive. For c > 5.3 mol/dm³, ions can also join a step producing new kink sites, thus increasing the growth velocity of (100) face. Further increase in the growth velocity is predicted to occur in solutions with c > 5.7 mol/dm³ when formation of growth islands is possible.

Keywords: growth morphology; KCl microcrystals; molecular interactions; solvent adsorption

---

The full text of this paper in pdf-Format:

If you came directly to this page, click this symbol to go to the homepage of CRT.