二聚体几何形状增强了纳米球二聚体的光学和红外活性

IF 1.8 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY IEEE Open Journal of Nanotechnology Pub Date : 2024-08-05 DOI:10.1109/OJNANO.2024.3437164
D. Keith Roper;Jin-Woo Kim;Ricardo R. Romo;Joseph Batta-Mpouma
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引用次数: 0

摘要

增强亚波长金属纳米粒子的光学和红外活性是其在光电子学、光谱学和传感领域应用的关键。本研究比较了通过离心金纳米球合并的纳米球二聚体和相应的模拟纳米级二聚体的光谱。通过模拟将纳米二聚体的几何特征与相应的光学和近红外活性联系起来。纳米二聚体的光学和红外活性差异主要归因于纳米球半径和合并纳米球之间导电连接半径的变化。实验光谱中观察到的特征归因于部分二聚体主要表现出光学和红外活性,这与相应的透射电子显微镜图像中的观察结果一致。本研究的制备和模拟方法有助于指导设计、制造和实现可持续合成的纳米球二聚体,这些二聚体具有光电、光谱和传感应用所需的光学特征。
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Enhanced Optical and Infrared Activity of Nanosphere Dimers Attributed to Dimer Geometry
Enhanced optical and infrared activity of subwavelength metal nanoparticles is key to their use in optoelectronics, spectroscopy, and sensing. The present work compared spectra of nanosphere dimers merged by centrifuging gold nanospheres with corresponding simulated nanoscale dimers. Geometric features of the nanosphere dimers were related to corresponding optical and near-infrared activity through simulation. Differences in optical and infrared activity of the nanosphere dimers were largely attributable to changes in the radius of the nanosphere and the radius of the conductive junction between merged nanospheres. The features observed in the experimental spectra were attributed to a select number of dimers exhibiting predominantly optical and infrared activity, consistent with observations made in the corresponding transmission electron microscope image. The preparation and simulation methods in the present work appear useful to guide design, fabrication, and implementation of sustainably-synthesized nanosphere dimers with desired optical features for optoelectronic, spectroscopic, and sensing applications.
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来源期刊
CiteScore
3.90
自引率
17.60%
发文量
10
审稿时长
12 weeks
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