TY - JOUR
T1 - Electrowetting on dielectrics on lubricating fluid-infused smooth/rough surfaces with negligible hysteresis
AU - Barman, Jitesh
AU - Pant, Reeta
AU - Nagarajan, Arun Kumar
AU - Khare, Krishnacharya
N1 - Publisher Copyright:
© 2016 Informa UK Limited, trading as Taylor & Francis Group.
PY - 2017/1/17
Y1 - 2017/1/17
N2 - Low-voltage electrowetting on dielectrics on substrates with a thin layer of lubricating fluid to reduce contact angle hysteresis is reported here. On smooth and homogeneous solid surfaces, it is extremely difficult to reduce contact angle hysteresis (contact angle difference between advancing and receding drop volume cycle) and the electrowetting hysteresis (contact angle difference between increasing and decreasing voltage cycle) below 10°. On the other hand, electrowetting hysteresis on rough surfaces can be relatively large (~30°); therefore, they are not useful for most of the fluidic devices. In the present report, we demonstrate that using a thin layer of dielectric lubricating fluid on top of the solid dielectric surface reduces the contact angle hysteresis as well as electrowetting hysteresis below 2° on smooth as well as rough surfaces. Electrowetting on lubricating fluid-coated surfaces also show a threshold behavior and the threshold voltage depends on the viscosity of the lubricating fluid. Modified Lippmann equation is used to explain the electrowetting on lubricant-coated surfaces quantitatively.
AB - Low-voltage electrowetting on dielectrics on substrates with a thin layer of lubricating fluid to reduce contact angle hysteresis is reported here. On smooth and homogeneous solid surfaces, it is extremely difficult to reduce contact angle hysteresis (contact angle difference between advancing and receding drop volume cycle) and the electrowetting hysteresis (contact angle difference between increasing and decreasing voltage cycle) below 10°. On the other hand, electrowetting hysteresis on rough surfaces can be relatively large (~30°); therefore, they are not useful for most of the fluidic devices. In the present report, we demonstrate that using a thin layer of dielectric lubricating fluid on top of the solid dielectric surface reduces the contact angle hysteresis as well as electrowetting hysteresis below 2° on smooth as well as rough surfaces. Electrowetting on lubricating fluid-coated surfaces also show a threshold behavior and the threshold voltage depends on the viscosity of the lubricating fluid. Modified Lippmann equation is used to explain the electrowetting on lubricant-coated surfaces quantitatively.
KW - Wetting
KW - electrowetting
KW - hysteresis
KW - slippery surfaces
KW - surface engineering
UR - http://www.scopus.com/inward/record.url?scp=84978971736&partnerID=8YFLogxK
U2 - 10.1080/01694243.2016.1205245
DO - 10.1080/01694243.2016.1205245
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AN - SCOPUS:84978971736
SN - 0169-4243
VL - 31
SP - 159
EP - 170
JO - Journal of Adhesion Science and Technology
JF - Journal of Adhesion Science and Technology
IS - 2
ER -