In this work, new efficient drug delivery systems based on cellulose nanofiber–titania nanocompositesgrafted with three different types of model drugs such as diclofenac sodium, penicillamine-D and phosphomycin were successfully synthesized and displayed distinctly different controlled long-term release profiles. Three different methods of medicine introduction were used to show that various interactions between TiO2 and drug molecules could be used to control the kinetics of long-term drug release. All synthesis reactions were carried out in aqueous media. The morphology, chemical structure and properties of the obtained materials were characterized by SEM, TEM and AFM microscopy, nanoparticle tracking analysis, X-ray diffraction, and TGA ...
The present work focuses on development and investigation of new functional hybrid nanomaterials bas...
Spherical cellulose nanocrystal-based hybrids grafted with titania nanoparticles were successfully p...
A well-adherent surface of titanium oxide nanoparticles was produced on cellulose fibers at low temp...
In this work, new efficient drug delivery systems based on cellulose nanofiber–titania nanocomposite...
In this work, new efficient drug delivery systems based on cellulose nanofiber–titania nanocomposite...
In this work, new efficient drug delivery systems based on cellulose nanofiber–titania nanocomposite...
In this work, new efficient drug delivery systems based on cellulose nanofiber–titania nanocomposite...
In this work, new efficient drug delivery systems based on cellulose nanofiber–titania nanocomposite...
In this work, new efficient drug delivery systems based on cellulose nanofiber–titania nanocomposite...
In this work, new efficient drug delivery systems based on cellulose nanofiber–titania nanocomposite...
In this work, new efficient drug delivery systems based on cellulose nanofiber–titania nanocomposite...
Nanocomposite dermal drug delivery systems based on cellulose nanofibers with grafted titania nanopa...
Nanocomposite dermal drug delivery systems based on cellulose nanofibers with grafted titania nanopa...
Nanocomposite dermal drug delivery systems based on cellulose nanofibers with grafted titania nanopa...
Nanocomposite dermal drug delivery systems based on cellulose nanofibers with grafted titania nanopa...
The present work focuses on development and investigation of new functional hybrid nanomaterials bas...
Spherical cellulose nanocrystal-based hybrids grafted with titania nanoparticles were successfully p...
A well-adherent surface of titanium oxide nanoparticles was produced on cellulose fibers at low temp...
In this work, new efficient drug delivery systems based on cellulose nanofiber–titania nanocomposite...
In this work, new efficient drug delivery systems based on cellulose nanofiber–titania nanocomposite...
In this work, new efficient drug delivery systems based on cellulose nanofiber–titania nanocomposite...
In this work, new efficient drug delivery systems based on cellulose nanofiber–titania nanocomposite...
In this work, new efficient drug delivery systems based on cellulose nanofiber–titania nanocomposite...
In this work, new efficient drug delivery systems based on cellulose nanofiber–titania nanocomposite...
In this work, new efficient drug delivery systems based on cellulose nanofiber–titania nanocomposite...
In this work, new efficient drug delivery systems based on cellulose nanofiber–titania nanocomposite...
Nanocomposite dermal drug delivery systems based on cellulose nanofibers with grafted titania nanopa...
Nanocomposite dermal drug delivery systems based on cellulose nanofibers with grafted titania nanopa...
Nanocomposite dermal drug delivery systems based on cellulose nanofibers with grafted titania nanopa...
Nanocomposite dermal drug delivery systems based on cellulose nanofibers with grafted titania nanopa...
The present work focuses on development and investigation of new functional hybrid nanomaterials bas...
Spherical cellulose nanocrystal-based hybrids grafted with titania nanoparticles were successfully p...
A well-adherent surface of titanium oxide nanoparticles was produced on cellulose fibers at low temp...