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A new class of luminescent nanoprobes based on main-group Sb3+ emitters

Chunguang Zhang, Meiran Zhang, Wei Zheng, Jiaojiao Wei, Shiteng Wang, Ping Huang, Xingwen Cheng, Tao Dai, Zhuo Chen, Xueyuan Chen

2021Nano Research28 citationsDOI

Abstract

Inorganic luminescent nanocrystals (NCs) doped with main-group ns2-metal ions have evoked tremendous interest in many technological fields owing to their superior optical properties. Herein, we report a new class of luminescent nanoprobes based on 5s2-metal Sb3+-doped CaS NCs that are excitable by using a near ultraviolet light-emitting diode. The optical properties and excited-state dynamics of Sb3+ in CaS NCs are comprehensively surveyed through temperature-dependent steady-state and transient photoluminescence (PL) spectroscopies. Owing to the strong electron-phonon coupling of Sb3+ in CaS NCs, Sb3+ ions experience a dynamic Jahn-Taller distortion on the excited state, which results in bright green PL of Sb3+ with a broad emission band, a large Stokes shift, and a high PL quantum yield up to 17.3%. By taking advantage of the intense PL of Sb3+, we show in proof-of-concept experiments the application of biotinylated CaS:Sb3+ NCs as sensitive luminescent nanoprobes for biotin receptor-targeted cancer cell imaging and zebrafish imaging with a high imaging contrast. These findings provide fundamental insights into the excited-state dynamics of Sb3+ in CaS NCs, thus laying a foundation for future design of novel and versatile luminescent nanoprobes via main-group ns2-metal doping.

Topics & Concepts

LuminescencePhotoluminescenceExcited stateMaterials scienceQuantum yieldOptoelectronicsDopingPersistent luminescenceNanotechnologyIonFluorescenceChemistryAtomic physicsOpticsPhysicsThermoluminescenceOrganic chemistryLuminescence Properties of Advanced MaterialsPerovskite Materials and ApplicationsQuantum Dots Synthesis And Properties