High-Efficiency Second Harmonic Generation from a Single Hybrid ZnO Nanowire/Au Plasmonic Nano-Oligomer

Grinblat Gustavo; Rahmani Mohsen; Cortes Emiliano; Caldarola Martin; Comedi David; Maier Stefan A.; Bragas Andrea V.

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High-Efficiency Second Harmonic Generation from a Single Hybrid ZnO Nanowire/Au Plasmonic Nano-Oligomer

机译：单个杂化ZnO纳米线/ Au等离子体纳米低聚物可高效产生第二谐波

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We introduce a plasmonic-semiconductor hybrid nanosystem, consisting of a ZnO nanowire coupled to a gold pentamer oligomer by crossing the hot-spot. It is demonstrated that the hybrid system exhibits a second harmonic (SH) conversion efficiency of similar to 3 x 10(-5)%, which is among the highest values for a nanoscale object at optical frequencies reported so far. The SH intensity was found to be similar to 1700 times larger than that from the same nanowire excited outside the hot-spot. Placing high nonlinear susceptibility materials precisely in plasmonic confined-field regions to enhance SH generation opens new perspectives for highly efficient light frequency up-conversion on the nanoscale.

机译：我们介绍了一个等离子-半导体杂化纳米系统，该系统由通过穿越热点耦合到金五聚体低聚物的ZnO纳米线组成。结果表明，该混合系统展现出的二次谐波（SH）转换效率接近3 x 10（-5）％，这是迄今为止报道的光频率下纳米尺度物体的最高值。发现SH强度是热点附近激发的同一纳米线的SH强度的1700倍。将高非线性磁化率材料精确地放置在等离激元局域内以增强SH的产生为纳米级高效光频率上转换打开了新的前景。

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来源
《Nano letters 》 |2014年第11期| 共6页
作者
Grinblat Gustavo; Rahmani Mohsen; Cortes Emiliano; Caldarola Martin; Comedi David; Maier Stefan A.; Bragas Andrea V.;
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正文语种 eng
中图分类特种结构材料 ; 物理化学（理论化学）、化学物理学 ;
关键词
Plasmonic nano-oligomer; ZnO nanowire; field enhancement; photonic-plasmonic coupling; second harmonic generation (SHG);

机译：等离子体纳米低聚物;ZnO纳米线;场增强;光子-等离子体耦合;二次谐波（SHG）;

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专利

1. High-Efficiency Second Harmonic Generation from a Single Hybrid ZnO Nanowire/Au Plasmonic Nano-Oligomer [J] . Grinblat Gustavo, Rahmani Mohsen, Cortes Emiliano, Nano letters . 2014 ,第11期

机译：单个杂化ZnO纳米线/ Au等离子体纳米低聚物可高效产生第二谐波
2. Plasmon assisted enhanced second-harmonic generation in single hybrid Au/ZnS nanowires [J] . Jassim Nadia M., Wang Kai, Han Xiaobo, Optical Materials . 2017 ,第FEBa期

机译：等离子辅助单根Au / ZnS混合纳米线增强二次谐波产生
3. Plasmonic enhancement of Au nanoparticle-embedded single-crystalline ZnO nanowire dye-sensitized solar cells [J] . Lu Ming-Yen, Tsai Chen-Yu, Chen Hsueh-An, Nano Energy . 2016 ,第Null期

机译：等离子体增强Au纳米粒子包埋的单晶ZnO纳米线染料敏化太阳能电池
4. UV Nanophotodetector based on a single ZnO:Au nanowire functionalized with Au-nanoparticles [C] . V. Postica, Th. Pauporte, B. Viana, Conference on Oxide-based Matericals and Devices . 2020

机译：基于单纳米ZnO：Au纳米线的Au-纳米粒子功能化的UV纳米光电探测器
5. Solid-state Synthesis of Silver Nanowires by Green Chemistry and Mechanistic Aspects Influencing Nanowire Growth & Plasmonic Study in Au Thin Film/MoS2 Heterostructures for Surface Enhanced Raman Spectroscopy [D] . Chevva, Harish. 2019

机译：绿色化学和机械方面的固态合成银纳米线，影响纳米胎生长和等离子体研究的Au薄膜/ MOS2表面增强拉曼光谱法
6. High-efficiency broadband second harmonic generation in single hexagonal GaAs nanowire [O] . Jing Wang, Ying Yu, Yu-Ming Wei, -1

机译：六角形GaAs纳米线中的高效宽带二次谐波生成
7. High-efficiency broadband second harmonic generation in single hexagonal GaAs nanowire [O] . Wang, Jing, Yu, Ying, Wei, Yu Ming, 2017

机译：六角形GaAs纳米线中的高效宽带二次谐波生成
8. Growth of ZnO nanowires on retroreflector microspheres and the resulting light channeling and plasmonic properties [R] . Prokes, S. M., Glembocki, O. J., Cleveland, E., 2011

机译：ZnO纳米线在逆向反射微球上的生长以及由此产生的光通道和等离子体特性

High-Efficiency Second Harmonic Generation from a Single Hybrid ZnO Nanowire/Au Plasmonic Nano-Oligomer

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