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通过抑制正/负热膨胀核/壳NaYF:Yb/Ho@ScF纳米颗粒中的多声子弛豫实现抗热猝灭上转换发光

Antithermal Quenching Upconversion Luminescence via Suppressed Multiphonon Relaxation in Positive/Negative Thermal Expansion Core/Shell NaYF:Yb/Ho@ScF Nanoparticles.

作者信息

Wang Yilin, Rui Jiahui, Song Hao, Yuan Ze, Huang Xiaoqiao, Liu Jingyao, Zhou Jie, Li Ce, Wang Hui, Wu Shuaihao, Chen Ran, Yang Mingdi, Gao Qilong, Xie Xiaoji, Xing Xianran, Huang Ling

机构信息

Institute of Advanced Materials (IAM), Nanjing Tech University, Nanjing 211816, China.

College of Materials Science and Engineering, Nanjing Tech University, Nanjing 211816, China.

出版信息

J Am Chem Soc. 2024 Mar 13;146(10):6530-6535. doi: 10.1021/jacs.3c10886. Epub 2024 Feb 27.

Abstract

Thermal quenching (TQ) has been naturally entangling with luminescence since its discovery, and lattice vibration, which is characterized as multiphonon relaxation (MPR), plays a critical role. Considering that MPR may be suppressed under exterior pressure, we have designed a core/shell upconversion luminescence (UCL) system of α-NaYF:Yb/Ln@ScF (Ln = Ho, Er, and Tm) with positive/negative thermal expansion behavior so that positive thermal expansion of the core will be restrained by negative thermal expansion of the shell when heated. This imposed pressure on the crystal lattice of the core suppresses MPR, reduces the amount of energy depleted by TQ, and eventually saves more energy for luminescing, so that anti-TQ or even thermally enhanced UCL is obtained.

摘要

自热猝灭(TQ)被发现以来,它就一直与发光现象自然地相互纠缠,而以多声子弛豫(MPR)为特征的晶格振动起着关键作用。考虑到在外部压力下MPR可能会受到抑制,我们设计了一种具有正/负热膨胀行为的α-NaYF:Yb/Ln@ScF(Ln = Ho、Er和Tm)核壳上转换发光(UCL)系统,这样在加热时,核的正热膨胀将被壳的负热膨胀所抑制。这对核的晶格施加了压力,从而抑制了MPR,减少了TQ消耗的能量量,并最终为发光节省了更多能量,从而获得了抗TQ甚至热增强的UCL。

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