Evaporation of ethanol/water mixture droplets on micro-patterned PDMS surfaces

YS Yu, X Huang, L Sun, JZ Zhou, A Zhou - International Journal of Heat and …, 2019 - Elsevier
YS Yu, X Huang, L Sun, JZ Zhou, A Zhou
International Journal of Heat and Mass Transfer, 2019Elsevier
We report evaporation of ethanol/water mixture droplets on both pillar-arrayed and micro-
holed polydimethylsiloxane (PDMS) surfaces. Analysis of wettability shows that (i) when the
pillar-to-pillar spacing is 5 μm, the pillar-arrayed PDMS surfaces are Cassie-Baxter-
wetted;(ii) when the pillar-to-pillar spacing is 20 or 50 μm, part of each pillar-arrayed surface
is Cassie-Baxter-wetted while the other part Wenzel-wetted;(iii) all micro-holed PDMS
surfaces are Cassie-Baxter-wetted;(iv) the advancing and receding contact angles increase …
Abstract
We report evaporation of ethanol/water mixture droplets on both pillar-arrayed and micro-holed polydimethylsiloxane (PDMS) surfaces. Analysis of wettability shows that (i) when the pillar-to-pillar spacing is 5 μm, the pillar-arrayed PDMS surfaces are Cassie-Baxter-wetted; (ii) when the pillar-to-pillar spacing is 20 or 50 μm, part of each pillar-arrayed surface is Cassie-Baxter-wetted while the other part Wenzel-wetted; (iii) all micro-holed PDMS surfaces are Cassie-Baxter-wetted; (iv) the advancing and receding contact angles increase with the increase of the pillar-to-pillar spacing, while they decrease with the increase of the hole-to-hole spacing. The investigation on evaporation of mixture droplets demonstrates that (i) evaporation on pillar-arrayed PDMS first proceeds with constant contact radius mode (CCR) due to the strong adhesion between the surface and the droplet; (ii) on micro-holed surfaces CCR stage is also observed for the surface with the hole-to-hole spacing of 5 μm, while it is not found at high ethanol concentration for surfaces with the hole-to-hole spacings of 20 μm and 50 μm, which is attributed to the weak adhesion between the micro-holed surfaces and the droplet. Finally, the evolution of droplet volume and its two-third power are discussed.
Elsevier
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