EFFECT OF HYDROTHERMAL CONDITIONS ON THE MORPHOLOGY OF COLLOIDAL BOEHMITE PARTICLES - IMPLICATIONS FOR FIBRIL FORMATION AND MONODISPERSITY

The synthesis of colloidal boehmite (AlOOH) is studied by heating basic aluminum chloride solutions under constant stirring. The temperature and Al2O3: Cl molar ratio influence the product morphology. Synthesis at 140°C generates highly fibrous polycrystalline particles that are on average 360 nm long, 30 nm broad, and 8 nm thick. They contain 0.11 mol of excess H2O per 1 mol of AlOOH. Synthesis at temperatures between 140° and 190°C produces broader fibrils and less excess H2O. Preparation at 220°C eventually produces fully crystalline platelike boehmite particles about 260 nm long, 95 nm broad, and 14 nm thick, without excess H2O. Fibril synthesis requires an Al2O3:Cl molar ratio exceeding 1.0 to yield noncoagulated particles. The fibrils are fairly monodisperse with 20% standard deviation in their length for an Al2O3: Cl molar ratio about 1.0. Copyright © 1990, Wiley Blackwell. All rights reserved