Plasma-Treated PDMS as Intrinsically Non-Wetting Surface for Gallium-Alloy Liquid Metal Microfluidics

机译：等离子体处理过的PDMS作为镓合金液态金属微流体的本征非润湿表面

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We report the CF4/O2 plasma treatment of polydimethylsiloxane (PMDS) surface as a new method to create an intrinsically non-wetting surface for gallium-based liquid metal microfluidics. It was found that CF4/O2 plasma on PDMS for > 120s creates nanoscale roughness which exhibits a non-wetting property against liquid metals. Static contact angles and contact angle hysteresis (CAH) of the plasma-treated PDMS surfaces using gallium-based liquid metal droplets were found to be > 144° and < 16.8°, respectively. Rolling test with 15° inclined surfaces were used to confirm non-wetting property of the surface.

机译：我们报告CF 4 / O 2 聚二甲基硅氧烷（PMDS）表面的等离子处理是一种新方法，可为镓基液态金属微流控技术创建本质上不润湿的表面。发现CF 4 / O 2 PDMS上的等离子大于120秒会产生纳米级粗糙度，该粗糙度对液态金属具有非润湿性。发现使用镓基液态金属液滴的等离子体处理过的PDMS表面的静态接触角和接触角磁滞（CAH）分别大于144°和小于16.8°。使用具有15°倾斜表面的滚动测试来确认表面的非润湿性。

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《IEEE International Conference on Micro Electro Mechanical Systems》|2020年|1122-1125|共4页
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Sachin Babu; Jeong-Bong Lee;
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Liquid metal; Galinstan; PDMS; Microfluidics; Plasma;

机译：液态金属;加林斯坦; PDMS;微流控;等离子;

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机译：碱金属自由液体表面的本征结构
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机译：用于研究液态金属溶液的表面张力并提高固有蒸气弹性的装置
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机译：表面活性剂介导的在半导体表面上本征液态金属的有序平面膜的生长：Si（111）-4x1-In上的Ga-工艺。没有。 153309
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6. Hydrophobic and Metallophobic Surfaces: Highly Stable Non-wetting Inorganic Surfaces Based on Lanthanum Phosphate Nanorods [O] . Sasidharan Sankar, Balagopal N. Nair, Takehiro Suzuki, -1

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机译：聚二甲基硅氧烷（PDMS）对未处理的塑料和用于微流体应用的金属的不可逆键合

Plasma-Treated PDMS as Intrinsically Non-Wetting Surface for Gallium-Alloy Liquid Metal Microfluidics

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