Hydroxyl‐Rich Polycation Brushed Multifunctional Rare‐Earth‐Gold Core–Shell Nanorods for Versatile Therapy Platforms

It is of great significance to develop a multifunctional imaging‐guided therapeutic platform with ideal resolution and sensitivity. Notably, rare‐earth (RE) nanoparticles are attractive candidates for multimodal imaging due to their unique optical and magnetic properties. In this work, a rational design of hierarchical nanohybrids employing RE‐Au hetero‐nanostructures is proposed. 1D RE nanorods are adopted as the core to facilitate cellular internalization with the coating of gold nanoshells for photothermal performances. Hydroxyl‐rich polycations with low cytotoxicity are grafted onto the surface of RE‐Au to produce RE‐Au‐PGEA (ethanolamine‐functionalized poly(glycidyl methacrylate)) nanohybrids with impressive gene transfection capability. Given the virtues of all the components, the feasibility of RE‐Au‐PGEA for multifunctional photoacoustic, computed tomography, magnetic resonance, upconversion luminescence imaging, and complementary photothermal therapy/gene therapy therapy is investigated in detail in vitro and in vivo. The visualization of the therapeutic processes with comprehensive information renders RE‐Au‐PGEA nanohybrid an intriguing platform to realize enhanced antitumor efficiency.