A noncovalent backbone planarization strategy increases the NIR-II extinction coefficients for gas/phototheranostic applications.

Peng ChengShangyu ChenJiewei LiWan YangPengfei ChenHan MiaoQingming Shen Pengfei Sun Qu-Li Fan

Published in: Chemical communications (Cambridge, England) (2023)

We propose a noncovalent backbone planarization strategy to fabricate a gas/phototheranostic nanocomposite (B-E-NO NPs) in the near-infrared-II (NIR-II, 1000-1700 nm) window by incorporating noncovalent conformational locks. B-E-NO NPs display a giant NIR-II extinction coefficient, realizing multimodal imaging-guided high-efficiency NIR-II photothermal therapy ( η = 45.4%) and thermal-initiated nitric oxide combination therapy.

Keyphrases

photodynamic therapy
combination therapy
nitric oxide
fluorescence imaging
high efficiency
drug release
fluorescent probe
computed tomography
quantum dots
pain management
single molecule
diffusion weighted imaging
solid phase extraction
oxide nanoparticles