Aerial wetting contact angle measurement using confocal microscopy

Jacob W. Chesna; Bob F. Wiedmaier; Jinlin Wang; Ayman Samara; Richard K. Leach; Tsing Hua Her; Stuart T. Smith

doi:10.1088/0957-0233/27/12/125202

Aerial wetting contact angle measurement using confocal microscopy

Jacob W. Chesna, Bob F. Wiedmaier, Jinlin Wang, Ayman Samara, Richard K. Leach, Tsing Hua Her, Stuart T. Smith

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10 Citations (Scopus)

Abstract

A method is presented in which the wetting contact angle of a sessile drop is acquired aerially using confocal techniques to measure the radius and the height of a droplet deposited on a planar surface. The repeatability of this method is typically less than 0.25°, and often less than 0.1°, for droplet diameters less than 1 mm. To evaluate accuracy of this method, an instrument uncertainty budget is developed, which predicts a combined uncertainty of 0.91° for a 1 mm diameter water droplet with a contact angle of 110°. For droplets having diameters less than 1 mm and contact angles between 15° and 160°, these droplets approach spherical shape and their contact angles can be computed analytically with less than 1% error. For larger droplets, gravitational deformation needs to be considered.

Original language	English
Article number	125202
Journal	Measurement Science and Technology
Volume	27
Issue number	12
DOIs	https://doi.org/10.1088/0957-0233/27/12/125202
Publication status	Published - 26 Oct 2016

Keywords

confocal microscopy
contact angle
wettability

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title = "Aerial wetting contact angle measurement using confocal microscopy",

abstract = "A method is presented in which the wetting contact angle of a sessile drop is acquired aerially using confocal techniques to measure the radius and the height of a droplet deposited on a planar surface. The repeatability of this method is typically less than 0.25°, and often less than 0.1°, for droplet diameters less than 1 mm. To evaluate accuracy of this method, an instrument uncertainty budget is developed, which predicts a combined uncertainty of 0.91° for a 1 mm diameter water droplet with a contact angle of 110°. For droplets having diameters less than 1 mm and contact angles between 15° and 160°, these droplets approach spherical shape and their contact angles can be computed analytically with less than 1% error. For larger droplets, gravitational deformation needs to be considered.",

keywords = "confocal microscopy, contact angle, wettability",

author = "Chesna, {Jacob W.} and Wiedmaier, {Bob F.} and Jinlin Wang and Ayman Samara and Leach, {Richard K.} and Her, {Tsing Hua} and Smith, {Stuart T.}",

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AU - Chesna, Jacob W.

AU - Wiedmaier, Bob F.

AU - Wang, Jinlin

AU - Samara, Ayman

AU - Leach, Richard K.

AU - Her, Tsing Hua

AU - Smith, Stuart T.

PY - 2016/10/26

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N2 - A method is presented in which the wetting contact angle of a sessile drop is acquired aerially using confocal techniques to measure the radius and the height of a droplet deposited on a planar surface. The repeatability of this method is typically less than 0.25°, and often less than 0.1°, for droplet diameters less than 1 mm. To evaluate accuracy of this method, an instrument uncertainty budget is developed, which predicts a combined uncertainty of 0.91° for a 1 mm diameter water droplet with a contact angle of 110°. For droplets having diameters less than 1 mm and contact angles between 15° and 160°, these droplets approach spherical shape and their contact angles can be computed analytically with less than 1% error. For larger droplets, gravitational deformation needs to be considered.

AB - A method is presented in which the wetting contact angle of a sessile drop is acquired aerially using confocal techniques to measure the radius and the height of a droplet deposited on a planar surface. The repeatability of this method is typically less than 0.25°, and often less than 0.1°, for droplet diameters less than 1 mm. To evaluate accuracy of this method, an instrument uncertainty budget is developed, which predicts a combined uncertainty of 0.91° for a 1 mm diameter water droplet with a contact angle of 110°. For droplets having diameters less than 1 mm and contact angles between 15° and 160°, these droplets approach spherical shape and their contact angles can be computed analytically with less than 1% error. For larger droplets, gravitational deformation needs to be considered.

KW - confocal microscopy

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KW - wettability

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DO - 10.1088/0957-0233/27/12/125202

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Aerial wetting contact angle measurement using confocal microscopy

Abstract

Keywords

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