Litcius/Paper detail

Fluoride Hafnium/Zirconium-Softened Nanoprobes for Near-Infrared-IIb and CT Dual-Mode Bioimaging

Hang Shangguan, Qiang Wang, Shuang Liu, Chunsheng Li, Jiawei Qu, Yujie Cui, Zhengyang Tang, Yaru Huang, Na Niu, Jiating Xu

2024Nano Letters17 citationsDOI

Abstract

Fluoride-based lanthanide-doped nanoparticles (LDNPs) featuring second near-infrared (NIR-II, 1000–1700 nm) downconversion emission for bioimaging have attracted extensive attention. However, conventional LDNPs cannot be degraded and eliminated from organisms because of an inert lattice, which obstructs bioimaging applications. Herein, the core–shell LDNPs of Na 3 HfF 7:Yb,Er@CaF 2:Ce,Zr(Hf) [labeled as Zr(Hf)Ce-HC] with pH-selective and tunable degradability were synthesized for dual-modal bioimaging. Notably, the “softening” lattice of the Na 3 HfF 7 matrix and different Zr 4+ (Hf 4+ ) doping amounts in the shell enable Zr(Hf)Ce-HC with acidity-dependent and tunable degradability. After coating of an optimized Ce 3+ -doped CaF 2:Zr shell, the near-infrared-IIb (NIR-IIb, 1500–1700 nm) luminescence intensity of ZrCe-HC is enhanced by 5.2 times compared with that of Na 3 HfF 7:Yb,Er. The Hf element with high X-ray attenuation allows ZrCe-HC as the contrast agent for computed tomography (CT) bioimaging. The modification of oxidized sodium alginate endows ZrCe-HC with satisfying biocompatibility for NIR-IIb/CT dual-modal bioimaging. These findings would benefit the bioimaging applications of degradable fluoride-based LDNPs.

Topics & Concepts

HafniumZirconiumFluorideLanthanideNanoparticleMaterials scienceInfraredNanotechnologyInertDopingInorganic chemistryChemistryOptoelectronicsMetallurgyIonOpticsOrganic chemistryPhysicsLuminescence Properties of Advanced MaterialsNanoplatforms for cancer theranosticsLuminescence and Fluorescent Materials