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Supercritical Fluid Aided Microencapsulation of Titanium Dioxide

Raquel Carvallo, Chemical Engineering Department, University of South Florida, 4202 East Fowler Avenue ENB 118, Tampa, FL 33620 and Aydin Sunol, Department of Chemical Engineering, University of South Florida, 4202 East Fowler Avenue, ENB 118, Tampa, FL 33620.

Supercritical Fluid Aided

Microencapsulation of Titanium Dioxide

Raquel Carvallo, Aydin Sunol

ABSTRACT

On this work Chitosan, a natural biodegradable polymer was used to coat submicron particles of titanium dioxide. Chitosan has some properties that make it very attractive for pharmaceutical applications like: biocompatible, biodegrade to normal body constituents, safe and non toxic, bacteriostatic, anticancerogen, and versatile.

The objective of this research had been to encapsulate solid particles with a biopolymer, using supercritical CO2 as one of the solvents. Using the operation conditions determined from cloud point and solubility experiments, this supercritical mixture Chitosan-DMSO-CO2 was then introduced into a fluidized bed with porous TiO2 particles as a one phase system, then the Chitosan was precipitated as a consequence of a temperature change and the free solvent (DMSO) was extracted with supercritical CO2.

TEM, SEM and AFM confirm particles of one micron or less have been encapsulated with a thickness of less than 5 nm. AFM shows particle roughness on the nanometer range, 46 nm or more for uncoated particles and 2-4 nm for the encapsulated ones.

FTIR, NMR and DSC-TGA analysis indicates that the chemical structure of the Chitosan remains constant before and after processing, and the changes observed were attributed to some DMSO and moisture adsorbed during the encapsulation process.