Growth of metal-semiconductor core-multishell nanorods with optimized field confinement and nonlinear enhancement

Nan Fan; Xie Fang-Ming; Liang ShanMa LiangYang Da-JieLiu Xiao-LiWang Jia-HongCheng Zi-QiangYu Xue-FengZhou LiWang Qu-QuanZeng Jie

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Growth of metal-semiconductor core-multishell nanorods with optimized field confinement and nonlinear enhancement

机译：增长的金属半导体接触core-multishell用优化的约束和纳米棒非线性增强

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This paper describes a facile method for the synthesis of Au/AuAg/Ag2S/PbS core-multishell nanorods with double trapping layers. The synthesis, in sequence, involved deposition of Ag shells onto the surfaces of Au nanorod seeds, formation of AuAg shells by a galvanic replacement reaction, and overgrowth of the Ag2S shells and PbS shells. The resulting core-multishell nanorod possesses an air gap between the Au core and the AuAg shell. Together with the Ag2S shell, the air gap can efficiently trap light, causing strong field confinement and nonlinear enhancement. The as-prepared Au/AuAg/Ag2S/PbS core-multishell nanorods display distinct localized surface plasmon resonance and nonlinear optical properties, demonstrating an effective pathway for maneuvering the optical properties of nanocavities.

机译：本文描述了一个简单方法合成的非盟/ AuAg /银2 / PbS core-multishell双捕获纳米层。Ag)的合成,在序列,涉及沉积贝壳的表面上非盟奈米棒种子,电AuAg贝壳的形成置换反应,银2的过度生长贝壳和PbS贝壳。core-multishell奈米棒拥有一个气隙非盟的核心和AuAg壳之间。银2壳,气隙可以有效地捕获光,导致强场监禁非线性增强。非盟/ AuAg /银2 / PbS core-multishell纳米棒显示不同的局部表面等离子体共振非线性光学性质,他展示了一个机动光学的有效途径nanocavities的属性。

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来源
《Nanoscale》 |2016年第23期|11969-11975|共7页
作者
Nan Fan; Xie Fang-Ming; Liang ShanMa LiangYang Da-JieLiu Xiao-LiWang Jia-HongCheng Zi-QiangYu Xue-FengZhou LiWang Qu-QuanZeng Jie;
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作者单位

Univ Sci & Technol China, Sch Gifted Young, Hefei 230026, Anhui, Peoples R China;

Wuhan Univ, Minist Educ, Key Lab Artificial Micro & Nanostruct, Wuhan 430072, Peoples R China;

Univ Sci & Technol China, Hefei Natl Lab Phys Sci Microscale, Key Lab Strongly Coupled Quantum Matter Phys, Chinese Acad Sci,Dept Chem Phys, Hefei 230026, Anhui, Peoples R China;

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正文语种英语
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关键词
Nanorods; AIR GAP; Surface Plasmon ResonanceRefractive surgery enhancementConfinementNonlinear optical propertiesnonlinearity;

机译：ResonanceRefractive手术enhancementConfinementNonlinear光学propertiesnonlinearity;

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Growth of metal-semiconductor core-multishell nanorods with optimized field confinement and nonlinear enhancement

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