Studies of the anisotropic diffusive motion of nanoparticlesat the solid-liquid interface using near-fieldfluorescence correlation spectroscopy

Motohiko Suzuki; Hiroki Kurihara; Toshiharu Saiki

doi:10.5796/electrochemistry.82.376

Studies of the anisotropic diffusive motion of nanoparticlesat the solid-liquid interface using near-fieldfluorescence correlation spectroscopy

Motohiko Suzuki, Hiroki Kurihara, Toshiharu Saiki

Department of Electronics and Electrical Engineering

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

Abstract

Near-field fluorescence correlation spectroscopy measurements of 20 and 40nm polystyrene nanoparticles were performed, using fiber probes with aperture diameters ranging from 100 to 250 nm. The experimental data were best fit by a two-dimensional diffusion model, implying that there was significant anisotropy associated with the movement of the particles, such that mobility normal to the wall was much lower than that parallel to the wall. Interestingly, the lateral diffusion coefficients were approximately ten times greater than predicted from the Stokes-Einstein relationship corrected by taking into account hydrodynamic drag forces due to particle-wall interactions. This discrepancy between experimental and theoretical results is possibly due to strong viscous forces as well as attractive forces at the interface.

Original language	English
Pages (from-to)	376-379
Number of pages	4
Journal	Electrochemistry
Volume	82
Issue number	5
DOIs	https://doi.org/10.5796/electrochemistry.82.376
Publication status	Published - 2014 May

Keywords

Brownian Motion
Fluorescence Correlation Spectroscopy
Hydrodynamic Interaction
Near-Field Optical Microscopy

ASJC Scopus subject areas

Electrochemistry

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10.5796/electrochemistry.82.376

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title = "Studies of the anisotropic diffusive motion of nanoparticlesat the solid-liquid interface using near-fieldfluorescence correlation spectroscopy",

abstract = "Near-field fluorescence correlation spectroscopy measurements of 20 and 40nm polystyrene nanoparticles were performed, using fiber probes with aperture diameters ranging from 100 to 250 nm. The experimental data were best fit by a two-dimensional diffusion model, implying that there was significant anisotropy associated with the movement of the particles, such that mobility normal to the wall was much lower than that parallel to the wall. Interestingly, the lateral diffusion coefficients were approximately ten times greater than predicted from the Stokes-Einstein relationship corrected by taking into account hydrodynamic drag forces due to particle-wall interactions. This discrepancy between experimental and theoretical results is possibly due to strong viscous forces as well as attractive forces at the interface.",

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AU - Suzuki, Motohiko

AU - Kurihara, Hiroki

AU - Saiki, Toshiharu

PY - 2014/5

Y1 - 2014/5

N2 - Near-field fluorescence correlation spectroscopy measurements of 20 and 40nm polystyrene nanoparticles were performed, using fiber probes with aperture diameters ranging from 100 to 250 nm. The experimental data were best fit by a two-dimensional diffusion model, implying that there was significant anisotropy associated with the movement of the particles, such that mobility normal to the wall was much lower than that parallel to the wall. Interestingly, the lateral diffusion coefficients were approximately ten times greater than predicted from the Stokes-Einstein relationship corrected by taking into account hydrodynamic drag forces due to particle-wall interactions. This discrepancy between experimental and theoretical results is possibly due to strong viscous forces as well as attractive forces at the interface.

AB - Near-field fluorescence correlation spectroscopy measurements of 20 and 40nm polystyrene nanoparticles were performed, using fiber probes with aperture diameters ranging from 100 to 250 nm. The experimental data were best fit by a two-dimensional diffusion model, implying that there was significant anisotropy associated with the movement of the particles, such that mobility normal to the wall was much lower than that parallel to the wall. Interestingly, the lateral diffusion coefficients were approximately ten times greater than predicted from the Stokes-Einstein relationship corrected by taking into account hydrodynamic drag forces due to particle-wall interactions. This discrepancy between experimental and theoretical results is possibly due to strong viscous forces as well as attractive forces at the interface.

KW - Brownian Motion

KW - Fluorescence Correlation Spectroscopy

KW - Hydrodynamic Interaction

KW - Near-Field Optical Microscopy

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Studies of the anisotropic diffusive motion of nanoparticlesat the solid-liquid interface using near-fieldfluorescence correlation spectroscopy

Abstract

Keywords

ASJC Scopus subject areas

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