Multi-Functional Responsive Microcapsules with Sequential Release Capacity for Wound Healing.

The development of biomaterials capable of on-demand delivery holds significant promise for wound therapy. Current research is centered on refining design precision and enhancing structural functionality to achieve effective controlled release of active agents, thereby facilitating wound healing. In this study, a coaxial microfluidic electrospray technique is employed to fabricate microcapsules comprising a black phosphorus (BP)-laden alginate shell and a gelatin methacrylate (GelMA) core. Curcumin nanoparticles (CNPs) and vascular endothelial growth factor (VEGF) are respectively incorporated into the shell and core of the microcapsules. The photothermal performance of the microcapsules contributed to superior sterilization efficacy in the early stages of wound healing, while the growth factors in the core provided robust angiogenic effects during the later stages. These attributes enabled the microcapsules to significantly accelerate wound healing, enhance collagen deposition, and modulate inflammatory responses in a rat wound model, underscoring their potential for clinical application.