Direct Measurement of Slip Velocities Using Three-Dimensional Total Internal Reflection Velocimetry

Huang, Peter; Guasto, Jeffrey S.; Breuer, Kenneth

doi:10.1115/nano2005-87090

Cited by 22 publications

(54 citation statements)

References 39 publications

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“…Recently developed methods of PIV using TIRF illumination have highlighted the possibility to locally probe a flow at a few hundreds of nanometres above a surface (Pouya et al 2005;Huang et al 2006). This has led to the proposal of the experimental approach detailed below to locally measure the properties of nanoflows in an approximately 300 nm layer with a resolution in the direction orthogonal to the flow of approximately 30 nm (Bouzigues & Tabeling 2007, submitted).…”

Section: Micro-and Nanovelocimetrymentioning

confidence: 99%

Using surface force apparatus, diffusion and velocimetry to measure slip lengths

Bouzigues

Bocquet

Charlaix

et al. 2007

Phil. Trans. R. Soc. A.

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Determining the slip lengths for liquids flowing close to smooth walls is challenging. The reason lies in the fact that the scales that must be addressed range between a few and hundreds of nanometres. Several techniques have been used over the last few years. Here, we consider three of them based on surface force apparatus, diffusion and velocimetry, respectively. The descriptions offered here incorporate recent instrumental progress made in the field.

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Section: Micro-and Nanovelocimetrymentioning

confidence: 99%

Using surface force apparatus, diffusion and velocimetry to measure slip lengths

Bouzigues

Bocquet

Charlaix

et al. 2007

Phil. Trans. R. Soc. A.

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“…The glass was coated with octadecyltrichlorosilane (OTS) to render it hydrophobic with a contact angle of 95 • ± 7 • (Figure 1). Previous experiments using substrates prepared in a similar manner 9 have measured the rms surface roughness to be 0.35 nm. The flow was illuminated from below using a 514 nm argon ion laser delivered through a 100X 1.45 NA microscope objective (Nikon).…”

mentioning

confidence: 99%

“…9,18,19 However, within 10 µm of the contact line, the apparent slip length rises rapidly. The flood illumination results give very large estimates for the slip length, reaching several micrometers at the contact line.…”

mentioning

confidence: 99%

“…A further refinement that is possible with the TIRF data is to use the tracer particle intensity to localize the velocity vector at a given height from the substrate. 9,[14][15][16] To do this, we divided the near-wall region into four zones centered at z = 60, 120, 180, and 240 nm. The raw particle images were binned according to their intensity which, due to the exponentially decaying illumination field, is reliably attributed to the particle's distance from the substrate.…”

mentioning

confidence: 99%

“…In the first mode, the laser beam is brought in normal to the substrate, while in the second mode, the beam is introduced at a high incidence angle, above the critical angle, so that the liquid phase is illuminated by an evanescent field, penetrating approximately 300 nm into the liquid phase. 9 The motion of the tracer particles was imaged in fluorescence, coupled via a relay lens to a dual-stage image intensifier (Hammamatsu V9501U-74-G240) and a high speed CMOS camera (Photron APX). In the case of the flood illumination, the working fluid was a glycerol-water mixture (20% glycerol, by weight) with a viscosity, µ, of 10.8 mPa s, and a surface tension, σ, of 68 mN/m.…”

mentioning

confidence: 99%

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Large apparent slip at a moving contact line

2015

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Two different particle tracking velocimetry techniques are used to measure the fluid velocities close to the substrate in the vicinity of both receding and advancing contact lines. The slip velocity is found to be as much as 60% of the substrate speed near the contact line and persists as far as 10 μm from the liquid-gas interface. The estimated slip length near the contact line singularity requires a measurement of the shear rate close the substrate which depends strongly on the spatial resolution of the measurement technique. The slip length is found to be approximately 5 μm when flood illumination is used and approximately 500 nm when total internal reflection fluorescence illumination is used.

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Measurement of velocity profiles in a rectangular microchannel with aspect ratio α = 0.35

Zheng

Silber-Li

2008

Exp Fluids

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In this work, we measured 14 horizontal velocity profiles along the vertical direction of a rectangular microchannel with aspect ratio a = h/w = 0.35 (h is the height of the channel and w is the width of the channel) using microPIV at Re = 1.8 and 3.6. The experimental velocity profiles are compared with the full 3D theoretical solution, and also with a Poiseuille parabolic profile. It is shown that the experimental velocity profiles in the horizontal and vertical planes are in agreement with the theoretical profiles, except for the planes close to the wall. The discrepancies between the experimental data and 3D theoretical results in the center vertical plane are less than 3.6%. But the deviations between experimental data and Poiseuille's results approaches 5%. It indicates that 2D Poiseuille profile is no longer a perfect theoretical approximation since a = 0.35. The experiments also reveal that, very near the hydrophilic wall (z = 0.5-1 lm), the measured velocities are significantly larger than the theoretical velocity based on the no-slip assumption. A proper discussion on some physical effects influencing the near wall velocity measurement is given.

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Direct Measurement of Slip Velocities Using Three-Dimensional Total Internal Reflection Velocimetry

Cited by 22 publications

References 39 publications

Using surface force apparatus, diffusion and velocimetry to measure slip lengths

Using surface force apparatus, diffusion and velocimetry to measure slip lengths

Large apparent slip at a moving contact line

Measurement of velocity profiles in a rectangular microchannel with aspect ratio α = 0.35

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