One-dimensional nanorod arrays: Independent control of composition, length, and interparticle spacing with nanometer precision

Osberg K.D.; Schmucker A.L.; Senesi A.J.; Mirkin C.A.

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One-dimensional nanorod arrays: Independent control of composition, length, and interparticle spacing with nanometer precision

机译：一维纳米棒阵列：纳米精度的成分，长度和粒子间间距的独立控制

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We report the synthesis of solution dispersible, one-dimensional metal nanostructure arrays as small as 35 nm in diameter using on-wire lithography, wherein feature thickness and spacing in the arrays is tailorable down to approximately 6 and 1 nm, respectively. Using this unique level of control, we present solution-averaged extinction spectra of 35 nm diameter Au nanorod dimers with varying gap sizes to illustrate the effect of gap size on plasmon coupling between nanorods. Additionally, we demonstrate control over the composition of the arrays with Au, Ni, and Pt segments, representing important advances in controlling the ordering of sub-100 nm nanostructures that are not available with current synthesis or assembly methods.

机译：我们报告使用在线光刻技术，合成直径可减小至35 nm的溶液可分散的一维金属纳米结构阵列，其中阵列中的特征厚度和间距可分别调整至约6 nm和1 nm。使用这种独特的控制水平，我们提出了具有不同间隙尺寸的直径为35 nm的金纳米棒二聚体的溶液平均消光光谱，以说明间隙尺寸对纳米棒之间等离子体耦合的影响。此外，我们展示了对具有Au，Ni和Pt链段的阵列组成的控制，这代表了在控制亚100 nm纳米结构的有序化方面的重要进展，这是当前合成或组装方法所不具备的。

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《Nano letters》 |2011年第2期|共5页
作者
Osberg K.D.; Schmucker A.L.; Senesi A.J.; Mirkin C.A.;
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正文语种 eng
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multicomponent nanostructures; nanoparticle arrays; nanorods; On-wire lithography; plasmon coupling;

机译：多组分纳米结构纳米粒子阵列纳米线在线光刻等离子体耦合;

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专利

1. One-dimensional nanorod arrays: Independent control of composition, length, and interparticle spacing with nanometer precision [J] . Osberg K.D., Schmucker A.L., Senesi A.J., Nano letters . 2011,第2期

机译：一维纳米棒阵列：纳米精度的成分，长度和粒子间间距的独立控制
2. Molecular-mediated assembly of silver nanoparticles with controlled interparticle spacing and chain length [J] . Rafael Abargues, Sandra Albert, Jose L. Valdes Journal of Materials Chemistry: An Interdisciplinary Journal dealing with Synthesis, Structures, Properties and Applications of Materials, Particulary Those Associated with Advanced Technology . 2012,第41期

机译：具有控制的粒子间距和链长的银纳米粒子的分子介导组装
3. High density self assembled nanoparticle film with temperature-controllable interparticle spacing for deep sub-wavelength nanolithography using localized surface plasmon modes on planar silver nanoparticle tunable grating [J] . S. Lewis, R. Wheeler-Jones, V. Haynes, Microelectronic Engineering . 2008,第2期

机译：具有可控温度的粒子间间距的高密度自组装纳米粒子膜，用于在平面银纳米粒子可调光栅上使用局部表面等离子体激元模式进行深亚波长纳米光刻。
4. Electrodeposited noble metal SERS: Control of single nanoparticle size and control of array interparticle spacing [C] . Eoin Sheridan, Obianuju Inya-Agha, Tia Keyes, Plasmonics in Biology and Medicine IV; Progress in Biomedical Optics and Imaging; vol.8 no.27; Proceedings of SPIE-The International Society for Optical Engineering; vol.6450 . 2007

机译：电沉积的贵金属SERS：控制单个纳米颗粒的大小和控制阵列间的间距
5. Precision optical characterization on nanometer length and femtosecond time scales [D] . Bender, Daniel 2008

机译：在纳米长度和飞秒时间尺度上的精密光学表征
6. High channel count and high precision channel spacing multi-wavelength laser array for future PICs [O] . Yuechun Shi, Simin Li, Xiangfei Chen, -1

机译：适用于未来PIC的高通道数和高精度通道间隔多波长激光器阵列
7. Nanometer-Scale Precision Tuning of 3D Photonic Crystals Made Possible Using Polyelectrolytes with Controlled Short Chain Length and Narrow Polydispersity [O] . Zhuo, Wang, Calvo, Mauricio E., Masson, Georgeta, 2014

机译：使用可控制的短链长和窄多分散性的聚电解质，可以对3D光子晶体进行纳米级精确调谐

One-dimensional nanorod arrays: Independent control of composition, length, and interparticle spacing with nanometer precision

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