Two-dimensional nanosheets with high curcumin loading content for multimodal imaging-guided combined chemo-photothermal therapy

Abstract

Nowadays, two-dimensional (2D) nanomaterials with many fascinating physicochemical properties have drawn extensive attention as drug delivery platforms for cancer theranostics. Nevertheless, current existing 2D nanomaterial-based drug delivery systems normally undergo the bottlenecks of hash preparation process, low drug loading content and unsatisfactory therapeutic outcome. Herein, we developed a novel nanoparticles-induced assemble strategy to construct 2D nanosheets with ultra-high curcumin loading content of 59.6 % and excellent stability in water. Furthermore, a distinct photothermal effect and multimodal imaging property after polydopamine coating could be obtained, thereby leading to precise and efficient ablation of tumor in combination of curcumin-induced chemotherapy. More importantly, the design principle of our work offers novel facile strategy to assemble metal-binding drugs into 2D nanomedicine with high drug content and well-defined shapes.