核壳型功能化 NaYF:Er/Yb@NaYF:Tm/Yb 纳米粒子作为先进光热治疗的纳米量热计和纳米温度计。

Dually functioned core-shell NaYF:Er/Yb@NaYF:Tm/Yb nanoparticles as nano-calorifiers and nano-thermometers for advanced photothermal therapy.

机构信息

Department of Physics, Dalian Maritime University, Dalian, 116026, People's Republic of China.

College of Life Science, Dalian Nationalities University, Dalian, 116600, People's Republic of China.

出版信息

Sci Rep. 2017 Sep 19;7(1):11849. doi: 10.1038/s41598-017-11897-4.

DOI:10.1038/s41598-017-11897-4

PMID:28928385

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5605608/

Abstract

To realize photothermal therapy (PTT) of cancer/tumor both the photothermal conversion and temperature detection are required. Usually, the temperature detection in PTT needs complicated instruments, and the therapy process is out of temperature control in the present investigations. In this work, we attempt to develop a novel material for achieving both the photothermal conversion and temperature sensing and control at the same time. To this end, a core-shell structure with NaYF:Er/Yb core for temperature detection and NaYF:Tm/Yb shell for photothermal conversion was designed and prepared. The crystal structure and morphology of the samples were characterized by X-ray diffraction (XRD), scanning electron microscopy (SEM) and transmission electron microscopy (TEM). Furthermore, the temperature sensing properties for the NaYF:Er/Yb and core-shell NaYF:Er/Yb@NaYF:Tm/Yb nanoparticles were studied. It was found that the temperature sensing performance of the core-shell nanoparticles did not become worse due to coating of NaYF:Tm/Yb shell. The photothermal conversion behaviors were examined in cyclohexane solution based on the temperature response, the NaYF:Er/Yb@NaYF:Tm/Yb core-shell nanoparticles exhibited more effective photothermal conversion than that of NaYF:Er/Yb nanoparticles, and a net temperature increment of about 7 °C was achieved by using the core-shell nanoparticles.

摘要

为了实现癌症/肿瘤的光热疗法（PTT），既需要光热转换，也需要温度检测。通常，PTT 中的温度检测需要复杂的仪器，并且在目前的研究中，治疗过程无法进行温度控制。在这项工作中，我们试图开发一种新型材料，以同时实现光热转换和温度传感与控制。为此，设计并制备了一种具有用于温度检测的 NaYF:Er/Yb 核和用于光热转换的 NaYF:Tm/Yb 壳的核壳结构。通过 X 射线衍射（XRD）、扫描电子显微镜（SEM）和透射电子显微镜（TEM）对样品的晶体结构和形态进行了表征。此外，研究了 NaYF:Er/Yb 和核壳 NaYF:Er/Yb@NaYF:Tm/Yb 纳米粒子的温度传感性能。结果发现，由于包覆了 NaYF:Tm/Yb 壳，核壳纳米粒子的温度传感性能并没有变差。基于温度响应，在环己烷溶液中检查了光热转换行为，NaYF:Er/Yb@NaYF:Tm/Yb 核壳纳米粒子比 NaYF:Er/Yb 纳米粒子具有更有效的光热转换性能，并且通过使用核壳纳米粒子可以实现约 7°C 的净温升。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7e4d/5605608/f4a2dcb454ab/41598_2017_11897_Fig1_HTML.jpg

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核壳型功能化 NaYF:Er/Yb@NaYF:Tm/Yb 纳米粒子作为先进光热治疗的纳米量热计和纳米温度计。

Dually functioned core-shell NaYF:Er/Yb@NaYF:Tm/Yb nanoparticles as nano-calorifiers and nano-thermometers for advanced photothermal therapy.

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