Herein, chitosan nanoparticles (CS-NPs) were prepared and functionalized chemically with titanium dioxide nanoparticles (TiO2-NPs) to allow on-demand degradation of CS-NPs, using ultraviolet (UV) irradiation as a trigger. This is expected to allow drug release depending on patients' needs or physiological circumstances. Eleven formulations were arranged and their particle size, charge, and polydispersity were determined. The effect of CS-NPs size and the amount of TiO2-NPs, on the system collapse, was studied accordingly. Moreover, the collapse of these systems was examined using a fluorescence microscope after loading CS-NPs with Rhodamine. The formulations showed high monodispersity and had sizes ranged between 170 and 440 nm and charges ranged between +5 and +34 mV. Scanning electron microscope, Fourier-transform infrared spectroscopy, and X-ray diffraction proved the chemical deposition of TiO2-NPs on CS-NPs. The dye test showed that there are two factors that oppose each other and affected the deposition of TiO2-NPs on CS-NPs, the size of CS-NPs, and the amount of TiO2-NPs used. In addition, the dye test showed that the deposition of TiO2-NPs is a saturated process that relies on the amount of TiO2-NPs used initially. Finally, the intensity of Rhodamine released from these systems after illumination with UV light was related to the amount of TiO2-NPs deposited on CS-NPs. In conclusion, functionalization of CS-NPs with TiO2-NPs can be controlled and used to rupture CS-NPs on demand by illumination with UV light.
Keywords: Chitosan nanoparticles; Rhodamine; titanium dioxide nanoparticles; ultraviolet irradiation.
Copyright: © 2021 Journal of Advanced Pharmaceutical Technology & Research.