Radiopharmaceutical-activated silicon naphthalocyanine nanoparticles towards tumor photodynamic therapy.

Tingting WangJingchao LiXun ZhangChengao LiJiang MingJian LiDongsheng ZhangJun YangNian LiuXinhui Su

Published in: Chemical communications (Cambridge, England) (2024)

Naphthalocyanine-based agents exhibit huge potential in photodynamic therapy, yet their photodynamic performance is restricted by the penetration depth of the external laser. Herein, we employed 18 F-FDG as an internal light source to excite silicon naphthalocyanine nanoparticles to simultaneously circumvent radiative transition and boost 1 O 2 generation for tumor suppression.

Keyphrases

photodynamic therapy
fluorescence imaging
pet ct
pet imaging
optical coherence tomography
computed tomography
walled carbon nanotubes
mass spectrometry
high resolution
high speed
climate change