Manipulation of gold nanorods with dual-optical tweezers for surface plasmon resonance control

Lin Ling; Hong Lian Guo; Xiao Lan Zhong; Lu Huang; Jia Fang Li; Lin Gan; Zhi Yuan Li

doi:10.1088/0957-4484/23/21/215302

Manipulation of gold nanorods with dual-optical tweezers for surface plasmon resonance control

Lin Ling^*, Hong Lian Guo, Xiao Lan Zhong, Lu Huang, Jia Fang Li, Lin Gan, Zhi Yuan Li

^*Corresponding author for this work

CAS - Institute of Physics

Research output: Contribution to journal › Article › peer-review

32 Citations (Scopus)

Abstract

Gold nanorods are too tiny to be manipulated using conventional mechanical methods. In this paper, we demonstrate the trapping, transferring, positioning and patterning of gold nanorods with dual-optical tweezers. The convenient manipulations are achieved by taking advantage of the longitudinal surface plasmon resonance of gold nanorods and the anisotropic optical trapping forces formed by two linearly polarized Gaussian beams. The trapped gold nanoparticles are positioned extremely firmly and quickly on a substrate compared with randomly dispersed ones. It is observed that gold nanorods show advantages over gold nanospheres with regard to positioning speed and stability. More importantly, versatile plasmon coupling effects have been achieved in some patterned nanorods.

Original language	English
Article number	215302
Journal	Nanotechnology
Volume	23
Issue number	21
DOIs	https://doi.org/10.1088/0957-4484/23/21/215302
Publication status	Published - 1 Jun 2012
Externally published	Yes

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Ling, L., Guo, H. L., Zhong, X. L., Huang, L., Li, J. F., Gan, L., & Li, Z. Y. (2012). Manipulation of gold nanorods with dual-optical tweezers for surface plasmon resonance control. Nanotechnology, 23(21), Article 215302. https://doi.org/10.1088/0957-4484/23/21/215302

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abstract = "Gold nanorods are too tiny to be manipulated using conventional mechanical methods. In this paper, we demonstrate the trapping, transferring, positioning and patterning of gold nanorods with dual-optical tweezers. The convenient manipulations are achieved by taking advantage of the longitudinal surface plasmon resonance of gold nanorods and the anisotropic optical trapping forces formed by two linearly polarized Gaussian beams. The trapped gold nanoparticles are positioned extremely firmly and quickly on a substrate compared with randomly dispersed ones. It is observed that gold nanorods show advantages over gold nanospheres with regard to positioning speed and stability. More importantly, versatile plasmon coupling effects have been achieved in some patterned nanorods.",

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AU - Gan, Lin

AU - Li, Zhi Yuan

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AB - Gold nanorods are too tiny to be manipulated using conventional mechanical methods. In this paper, we demonstrate the trapping, transferring, positioning and patterning of gold nanorods with dual-optical tweezers. The convenient manipulations are achieved by taking advantage of the longitudinal surface plasmon resonance of gold nanorods and the anisotropic optical trapping forces formed by two linearly polarized Gaussian beams. The trapped gold nanoparticles are positioned extremely firmly and quickly on a substrate compared with randomly dispersed ones. It is observed that gold nanorods show advantages over gold nanospheres with regard to positioning speed and stability. More importantly, versatile plasmon coupling effects have been achieved in some patterned nanorods.

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Manipulation of gold nanorods with dual-optical tweezers for surface plasmon resonance control

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