“…Compared with traditional inorganic polymers (mesoporous silica) [ 112 , 113 ], hollow polymeric nanosphere (HPN) [ 114 ], porous organic polymers [ 115 ] (covalent organic frameworks (COF) [ 116 , 117 ], hypercrosslinked polymers (HCP) [ 118 ], inherently microporous polymers (PIM) [ 119 ], porous aromatic frameworks (PAF) [ 120 ], conjugated microporous polymers (CMP) [ 121 ], and other biodegradable polymers (polypeptides) [ 122 , 123 ], MOF-based composites offer great opportunities for multifunctionalization by virtue of their unique organic–inorganic hybrid composite structures, ordered porous structures, and high biocompatibility [ 124 ]. When dealing with complex wounds, MOFs can achieve wound healing effects by releasing metal ions and loading drugs, including regulating the oxidative stress response, antibacterial effects, and promoting angiogenesis, collagen deposition, and re-epithelialization [ 125 , 126 , 127 ], by improving wound site infection and blood flow reperfusion to accelerate the wound healing process and restore normal skin function ( Table 2 ).…”