铁/钴/镍@金和铁/钴/镍@银核壳纳米球的光学特性和热响应与尺寸有关

IF 2.3 3区 物理与天体物理 Q2 OPTICS
Kailash, SS Verma
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引用次数: 0

摘要

本研究采用米氏理论,对不同尺寸的磁等离子体 Fe/Co/Ni@Au 和 Fe/Co/Ni@Ag 核壳纳米结构在介电介质(即水)存在下的光热响应进行了数值研究。根据目前正在进行的研究,以 Fe、Co 和 Ni 为核材料,以贵金属 Au 和 Ag 为涂层(壳)材料,通过控制核和壳的尺寸,可以很好地调节其光学和热学特性。磁芯铁/钴/镍(半径范围为 10-40 纳米)与金和银涂层(外壳厚度固定为 5、10 和 15 纳米)纳米结构的 SPR 波长光谱分别调谐为 231-528 纳米和 364-420 纳米。优化尺寸的 Fe/Co/Ni@Au 和 Fe/Co/Ni@Ag 纳米球表面附近的最高温度分别为 2.09 ℃ / 2.09 ℃ / 2.23 ℃ 和 2.30 ℃ / 2.33 ℃ / 2.33 ℃。可以看出,表面等离子体共振(SPR)位于电磁(EM)光谱的紫外线(UV)域和红外线(IR)域附近。纳米粒子(NP)的温度升高是由于吸收效率提高所致。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Size-dependent optical properties and thermal response of Fe/Co/Ni@Au and Fe/Co/Ni@Ag core-shell nanospheres

Size-dependent optical properties and thermal response of Fe/Co/Ni@Au and Fe/Co/Ni@Ag core-shell nanospheres
In this work, Mie theory is employed to study the opto-thermal response of magneto plasmonic Fe/Co/Ni@Au and Fe/Co/Ni@Ag core-shell nanostructures of different sizes in the presence of dielectric media (i.e., water) is investigated numerically. The optical and thermal characteristics from the Fe, Co, and Ni as core material with noble metal Au and Ag as coating (shell) material are susceptible to being well-tuned by controlling the dimensions of both core and shell, based on the research being conducted at the moment. The SPR wavelength spectra of magnetic core Fe /Co /Ni (radii ranging from 10–40 nm) with Au and Ag coating (fixed shell thickness of 5, 10, and 15 nm), nanostructures are tuned from 231–528 nm and 364–420 nm, respectively. The maximum temperature obtained near the surface of Fe/Co/Ni@Au and Fe/Co/Ni@Ag nanospheres with the optimized size is 2.09℃ / 2.09 ℃ / 2.23 ℃ and 2.30 ℃ / 2.33 ℃ / 2.33 ℃, respectively. It can be observed that the surface plasmon resonance (SPR) is located in the vicinity of the ultraviolet (UV) and infrared (IR) domains of the electromagnetic (EM) spectra. The temperature rise noticed in the nanoparticle (NP) has been attributed to enhanced absorbance efficiency.
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来源期刊
CiteScore
5.30
自引率
21.70%
发文量
273
审稿时长
58 days
期刊介绍: Papers with the following subject areas are suitable for publication in the Journal of Quantitative Spectroscopy and Radiative Transfer: - Theoretical and experimental aspects of the spectra of atoms, molecules, ions, and plasmas. - Spectral lineshape studies including models and computational algorithms. - Atmospheric spectroscopy. - Theoretical and experimental aspects of light scattering. - Application of light scattering in particle characterization and remote sensing. - Application of light scattering in biological sciences and medicine. - Radiative transfer in absorbing, emitting, and scattering media. - Radiative transfer in stochastic media.
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