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Active, paper‐based, microfluidic chips driven by electrowetting are fabricated and demonstrated for reagent transport and mixing. Instead of using the passive capillary force on the pulp to actuate a flow of a liquid, a group of digital drops are transported along programmed trajectories above the electrodes printed on low‐cost paper, which should allow point‐of‐care production and diagnostic activities...
Active, paper‐based, microfluidic chips driven by electrowetting are fabricated and demonstrated for reagent transport and mixing by K. Shin, O.‐S. Kwon, and co‐workers on page 2335. The key advantage in fabricating the paper‐based microfluidic chips is that electrode patterns can be designed and printed on paper quickly, finely, and precisely without complicated wet‐lab processes. The cover image...
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