Abstract
Black phosphorus (BP) has recently emerged as an intriguing photothermal agent in photothermal therapy (PTT) against cancer by virtue of its high photothermal efficiency, biocompatibility, and biodegradability. However, naked BP is intrinsically characterized by easy oxidation (or natural degradation) and sedimentation inside the tumor microenvironment, leading to a short-term therapeutic and inhomogeneous photothermal effect. Development of BP-based nanocomposites for PTT against cancer therefore remains challenging. The present work demonstrates that green and injectable composite hydrogels based on cellulose and BP nanosheets (BPNSs) are of great efficiency for PTT against cancer. The resultant cellulose/BPNS-based hydrogel possesses 3D networks with irregular micrometer-sized pores and thin, strong cellulose-formed walls and exhibits an excellent photothermal response, enhanced stability, and good flexibility. Importantly, this hydrogel nanoplatform is totally harmless and biocompatible both in vivo and in vitro. This work may facilitate the development of BP–polymer-based photothermal agents in the form of hydrogels for biomedical-related clinic applications.
3D composite hydrogels based on 2D black phosphorus (BP) nanosheets and cellulose are developed in this work. Their morphology, physical properties, and biocompatibility/toxicity are investigated. Based on these characterizations, the 3D cellulose/BP composite hydrogel-based nanoplatforms are realized for photothermal therapy against cancer, and their performance is evaluated.
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