Beschreibung:
AbstractMetal ions are of widespread interest owing to their brilliant biomedical functions. However, a simple and universal nanoplatform designed for assembling a range of functional metal ions has not been explored. In this study, a concept of polyethylene glycol (PEG)‐mediated transport of metal ions is proposed. 31 types of PEG‐metal hybrid nanoparticles (P‐MNPs) are successfully synthesized through anionic ring‐opening polymerization (ROP), “thiol‐ene” click reaction, and subsequent incorporation with multiple metal ions. Compared with other methods, the facile method proposed in this study can provide a feasible approach to design MNPs (mostly <200 nm) containing different metal ions and thus to explore their potential for cancer theranostics. As a proof‐of‐concept demonstration, four types P‐MNPs, i.e., PEG‐metal hybrid copper nanoparticles (PEG‐Cu NPs), ruthenium nanoparticles (PEG‐Ru NPs), and manganese nanoparticles (PEG‐Mn NPs) or gadolinium nanoparticles (PEG‐Gd NPs), are proven to be tailored for chemodynamic therapy, photothermal therapy, and magnetic resonance imaging of tumors, respectively. Overall, this study provides several metal ions‐based nanomaterials with versatile functions for broad applications in cancer theranostics. Furthermore, it offers a promising tool that can be utilized for processing other metal‐based nanoparticles and exploring their potential in the biomedical field.