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UBC Theses and Dissertations
Fabrication and characterization of smooth omniphobic surfaces Khatir, Behrooz
Abstract
Liquid fouling can reduce the functionality of critical engineering surfaces. Recent studies have shown that minimizing contact angle hysteresis is a promising strategy for achieving omniphobic (all-liquid repellent) properties, thereby inhibiting fouling. Prior omniphobic films can repel a broad range of liquids, but the applicability of these coatings has always been limited to silicon wafers or smooth glass. Here we develop a facile procedure to generate an omniphobic coating on any surface, including metals, paper, ceramics, etc. The coating involves depositing an ultra-smooth, silicon wafer-like silica layer and then treating this layer with a highly reactive chlorosilane, which grafts polydimethylsiloxane chains onto the surface. Negligible contact angle hysteresis (≤ 1°) for various liquids, including ultra-low surface tension oils, alcohols, and fluoro-solvents, was achieved on many different substrates regardless of their initial roughness or chemistry. In fact, the contact angle hysteresis was so low we were forced to propose an alternate measurement technique, using tilt angles, that reduced the inherent errors associated with traditional contact angle goniometry. The coating’s durability was characterized and, when it was damaged, could be repeatedly repaired, fully restoring the omniphobic properties to their initial state. Moreover, we introduced another potential application of these surfaces. Viscosity measurement using a small amount of fluids is crucial since it is one of the most important parameters of a liquid. Recent studies have shown that there is a relation between viscosity and dynamic behavior of droplets on a surface. Our coating showed a promising performance confirming these relationships due to it ultra-low contact angle hysteresis. Hence, we used them to create a surface viscometer which can measure the viscosity of a wide range of liquids using only one droplet.
Item Metadata
Title |
Fabrication and characterization of smooth omniphobic surfaces
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Creator | |
Publisher |
University of British Columbia
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Date Issued |
2020
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Description |
Liquid fouling can reduce the functionality of critical engineering surfaces. Recent studies have shown that minimizing contact angle hysteresis is a promising strategy for achieving omniphobic (all-liquid repellent) properties, thereby inhibiting fouling. Prior omniphobic films can repel a broad range of liquids, but the applicability of these coatings has always been limited to silicon wafers or smooth glass. Here we develop a facile procedure to generate an omniphobic coating on any surface, including metals, paper, ceramics, etc. The coating involves depositing an ultra-smooth, silicon wafer-like silica layer and then treating this layer with a highly reactive chlorosilane, which grafts polydimethylsiloxane chains onto the surface. Negligible contact angle hysteresis (≤ 1°) for various liquids, including ultra-low surface tension oils, alcohols, and fluoro-solvents, was achieved on many different substrates regardless of their initial roughness or chemistry. In fact, the contact angle hysteresis was so low we were forced to propose an alternate measurement technique, using tilt angles, that reduced the inherent errors associated with traditional contact angle goniometry. The coating’s durability was characterized and, when it was damaged, could be repeatedly repaired, fully restoring the omniphobic properties to their initial state. Moreover, we introduced another potential application of these surfaces.
Viscosity measurement using a small amount of fluids is crucial since it is one of the most important parameters of a liquid. Recent studies have shown that there is a relation between viscosity and dynamic behavior of droplets on a surface. Our coating showed a promising performance confirming these relationships due to it ultra-low contact angle hysteresis. Hence, we used them to create a surface viscometer which can measure the viscosity of a wide range of liquids using only one droplet.
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Genre | |
Type | |
Language |
eng
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Date Available |
2020-08-14
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Provider |
Vancouver : University of British Columbia Library
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Rights |
Attribution-NonCommercial-NoDerivatives 4.0 International
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DOI |
10.14288/1.0392806
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URI | |
Degree | |
Program | |
Affiliation | |
Degree Grantor |
University of British Columbia
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Graduation Date |
2020-09
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Campus | |
Scholarly Level |
Graduate
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Rights URI | |
Aggregated Source Repository |
DSpace
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Rights
Attribution-NonCommercial-NoDerivatives 4.0 International