Ultrathin Two-Dimensional Plasmonic PtAg Nanosheets for Broadband Phototheranostics in Both NIR-I and NIR-II Biowindows

Broadband near-infrared (NIR) photothermal and photoacoustic agents covering from the first NIR (NIR-I) to the second NIR (NIR-II) biowindow are of great significance for imaging and therapy of cancers. In this work, ultrathin two-dimensional plasmonic PtAg nanosheets are discovered with strong broadband light absorption from NIR-I to NIR-II biowindow, which exhibit outstanding photothermal and photoacoustic effects under both 785 and 1064 nm lasers. Photothermal conversion efficiencies (PCEs) of PtAg nanosheets reach 19.2% under 785 nm laser and 45.7% under 1064 nm laser. The PCE under 1064 nm laser is higher than those of most reported inorganic NIR-II photothermal nanoagents. After functionalization with folic acid modified thiol-poly(ethylene glycol) (SH-PEG-FA), PtAg nanosheets endowed with good biocompatibility and 4T1 tumor-targeted function give high performances for photoacoustic imaging (PAI) and photothermal therapy (PTT) in vivo under both 785 and 1064 nm lasers. The effective ablation of tumors in mice can be realized without side effects and tumor metastasis by PAI-guided PTT of PtAg nanosheets under 785 or 1064 nm laser. The results demonstrate that the prepared PtAg nanosheets with ultrathin thickness and small size can serve as a promising phototheranostic nanoplatform for PAI-guided PTT of tumors in both NIR-I and NIR-II biowindows.

Automated summary

This study discovered ultrathin two-dimensional plasmonic PtAg nanosheets with strong broadband light absorption from NIR-I to NIR-II biowindow, exhibiting outstanding photothermal and photoacoustic effects under both 785 and 1064 nm lasers. Functionalized PtAg nanosheets showed good biocompatibility and tumor-targeted function in vivo, achieving effective tumor ablation through photoacoustic imaging (PAI) and photothermal therapy (PTT).