Aggregation of Gold Nanoparticles Based on Photothermal Effect and Its Application in Surface-Enhanced Raman Scattering

Kun Xin; Xiaofeng Shi; Xu Zhang; Zhongyi Wu; Zimeng Zhang; Xiangmin Huang; Jun Ma

doi:10.3788/AOS202040.1930001

[1] Li B J, Xin H B, Zhang Y et al. Progress of optical trapping and manipulation[J]. Acta Optica Sinica, 31, 0900126(2011).

[2] Lewittes M, Arnold S, Oster G. Radiometric levitation of micron sized spheres[J]. Applied Physics Letters, 40, 455-457(1982).

[3] Lei H X, Zhang Y, Li X M et al. Photophoretic assembly and migration of dielectric particles and Escherichia coli in liquids using a subwavelength diameter optical fiber[J]. Lab on a Chip, 11, 2241-2246(2011).

[4] Duhr S, Arduini S, Braun D. Thermophoresis of DNA determined by microfluidic fluorescence[J]. The European Physical Journal E, 15, 277-286(2004).

[5] Schwartzberg A M, Grant C D, Wolcott A et al. Unique gold nanoparticle aggregates as a highly active surface-enhanced Raman scattering substrate[J]. Journal of Physical Chemistry B, 108, 19191-19197(2004).

[6] Fazio B. D'Andrea C, Foti A, et al. SERS detection of biomolecules at physiological pH via aggregation of gold nanorods mediated by optical forces and plasmonic heating[J]. Scientific Reports, 6, 26952(2016).

[7] Shi X F, Liu S, Han X H et al. High-sensitivity surface-enhanced Raman scattering (SERS) substrate based on a gold colloid solution with a pH change for detection of trace-level polycyclic aromatic hydrocarbons in aqueous solution[J]. Applied Spectroscopy, 69, 574-579(2015).

[8] Svedberg F, Li Z P, Xu H X et al. Creating hot nanoparticle pairs for surface-enhanced Raman spectroscopy through optical manipulation[J]. Nano Letters, 6, 2639-2641(2006).

[9] Lin S Y, Zhu W Q, Jin Y H et al. Surface-enhanced Raman scattering with Ag nanoparticles optically trapped by a photonic crystal cavity[J]. Nano Letters, 13, 559-563(2013).

[10] Braun D, Libchaber A. Trapping of DNA by thermophoretic depletion and convection[J]. Physical Review Letters, 89, 188103(2002).

[11] Duhr S, Braun D. Two-dimensional colloidal crystals formed by thermophoresis and convection[J]. Applied Physics Letters, 86, 131921(2005).

[12] Xin H B, Lei H X, Zhang Y et al. Photothermal trapping of dielectric particles by optical fiber-ring[J]. Optics Express, 19, 2711-2719(2011).

[13] Soong C Y, Li W K, Liu C H et al. Theoretical analysis for photophoresis of a microscale hydrophobic particle in liquids[J]. Optics Express, 18, 2168-2182(2010).

[14] Li B J. Optical trapping and manipulation based on optical fiber probe[J]. Optics & Optoelectronic Technology, 17, 1-4(2019).

[15] Frens G. Controlled nucleation for the regulation of the particle size in monodisperse gold suspensions[J]. Nature Physical Science, 241, 20-22(1973).

[16] Xin K, Shi X F, Liu Y et al. Method of optical manipulation of gold nanoparticles for surface-enhanced Raman scattering in a microcavity[J]. Optics Express, 28, 8734-8743(2020).

[17] Baffou G, Quidant R. García de Abajo F J. Nanoscale control of optical heating in complex plasmonic systems[J]. ACS Nano, 4, 709-716(2010).

[18] Zhu C H, Meng G W, Zheng P et al. A hierarchically ordered array of silver-nanorod bundles for surface-enhanced Raman scattering detection of phenolic pollutants[J]. Advanced Materials, 28, 4871-4876(2016).