Toxic reactive oxygen species enhanced chemodynamic therapy by copper metal-nanocellulose based nanocatalysts.

When compared with traditional petroleum-based materials, bio-based materials show greater application potential in the field of biomedicine owing to the good biocompatibility, in specifical, the application of natural macromolecular polymers in chemotherapeutics has become a hot topic in anticancer treatment. In this study, cellulose nanocrystals (CNCs) were selected as carriers, and Au nanoparticles (NPs) were directly conjugated on their surface, with the highly reactive Cu ions serving as an ion-ligand bridge, to construct a multifunctional nanocatalyst. These findings suggest that the nanosystem delivers a large amount of highly reactive Cu ions (3.75 wt%) and DOX (7.71 wt%) by the surface loading of cellulose nanocrystals, which greatly improves ROS yield and promotes the application of the Fenton reaction system in cancer therapy.