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  • 王珂,李梦雅,王永庆,刘遵超,褚展鹏.纳米尺度下光热治疗等离激元耦合影响分析[J].低温物理学报,2020,(1):45-51.    [点击复制]
  • WANG Ke,LI Mengya,WANG Yongqing,LIU Zunchao,CHU Zhanpeng.Analysis of the Coupling Effect of Photothermal Treatment on Plasmonat Nanometer Scale[J].LOW TEMPERATURE PHYSICAL LETTERS,2020,(1):45-51.   [点击复制]
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纳米尺度下光热治疗等离激元耦合影响分析
王珂1,2, 李梦雅1,2, 王永庆1,2, 刘遵超1,2, 褚展鹏1,2
0
(1.郑州大学, 力学与安全工程学院, 郑州 450001;2.郑州大学, 河南省过程传热与节能重点实验室, 郑州 450002)
摘要:
作为一种高效、 局域化且高度可控的纳米热源, 金纳米棒越来越多的应用于肿瘤的光热治疗之中。 为探讨微观尺度下金纳米棒的产热与传热机理, 以及颗粒之间耦合作用对体系光热效应的影响。 本文运用基于有限元的 COMSOL 软件, 建立了金纳米棒光热耦合的三维模型, 分析了排布方式和颗粒间距等因素对纳米棒光学性质和光热响应的影响。 研究表明, 不同排布方式下近距离耦合颗粒之间的耦合强度随间距的增大呈指数衰减, 在一定间距范围内这种衰减行为可以被等离子体尺度方程描述; 单体共振波长照射下, 颗粒间的聚集影响光热治疗的效果, 在颗粒耦合作用范围内, 分散性越高, 体系加热效果越好。 本文研究模型及所得结论可为金纳米棒的产热与传热机理及肿瘤的光热治疗提供参考与指导。
关键词:  局域表面等离激元共振, 光热耦合, 光热治疗, 有限元
DOI:10.13380/j .ltpl.2020.01 .006
基金项目:
Analysis of the Coupling Effect of Photothermal Treatment on Plasmonat Nanometer Scale
WANG Ke1,2, LI Mengya1,2, WANG Yongqing1,2, LIU Zunchao1,2, CHU Zhanpeng1,2
(1.School of Mechanics and Safety Engineering ,Zhengzhou university , Zhengzhou 450001;2.Key Laboratory of Process Heat Transfer and Energy Saving of Henan Province , Zhengzhou University , Zhengzhou 450002)
Abstract:
As an efficient, localized and highly controllable nanometer heat source, Aunanorods are increasingly applied in photothermal therapy of tumors. To investigate the mechanism of heat generation and heat transfer of Aunanorods at micro scale and the effect of particle couplingon photothermal effect. In this paper, COMSOL software based on finite element was used to establish a three-dimensional model of photothermal coupling of Aunanorods. The influences of arrangement and particle spacing on the optical properties and photothermal response of the nanorods are analyazed by numerical simulation. The results show that the coupling strength between the particles decreases exponentially with the increase of the distance, which can be described by the plasma scale equation within acertain distance. Under the exposure of the resonance wave length of the monomer, the aggregation of particles affects the effect of photothermal therapy. Within the scope of particle coupling, the higher the dispersion, the better the heating effect of the system. This study model and conclusions can provide reference and guidance for the mechanism of heat production of gold nanorods and the photothermal treatment of tumors.
Key words:  ocalized surface plasmon resonance, photothermal coupling, photothermal therapy, finite element method

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