2023
DOI: 10.1002/adma.202305578
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Mechano‐Driven Tribo‐Electrophoresis Enabled Human–Droplet Interaction in 3D Space

Abstract: Electronically controlled droplet manipulation has widespread applications in biochemistry, life sciences and industry. However, current technologies such as electrowetting, electrostatics, and surface charge printing rely on complex electrode arrays and external power supplies, leading to inefficient manipulation. In light of these limitations, w e propose a novel method that leverages tribo‐electrophoresis (TEP) to pipette in an oil medium, thereby enabling human‐droplet interactions to be constructed with g… Show more

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Cited by 9 publications
(2 citation statements)
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“…15a, liquid droplets are suspended in dimethyl-silicone oil, with an electrostatic tweezer directly connected to the TENG positioned above them. 188 The TENG can be directly manipulated by human hands, providing the freedom to control both the distance and the position of movement. Once the TENG is set in motion, the liquid droplets can move either vertically or horizontally under the electric field generated by the TENG.…”
Section: Application Of F-tengsmentioning
confidence: 99%
“…15a, liquid droplets are suspended in dimethyl-silicone oil, with an electrostatic tweezer directly connected to the TENG positioned above them. 188 The TENG can be directly manipulated by human hands, providing the freedom to control both the distance and the position of movement. Once the TENG is set in motion, the liquid droplets can move either vertically or horizontally under the electric field generated by the TENG.…”
Section: Application Of F-tengsmentioning
confidence: 99%
“…[9,29,30] Benefiting from this, diverse TENGbased droplet manipulation systems have been reported, mainly relying on EWOD, [31,32] direct charge injection, [33] triboelectric wetting, [15] and tribo-electrophoresis. [34] These devices incorporated the features of self-powered, portability, safe-to-use, and low cost. However, most of them required complex circuit or electrode design to achieve synchronized response between the electrical control and droplet motion.…”
Section: Introductionmentioning
confidence: 99%