Browsers warn users when the privacy of an SSL/TLS connection might be at risk. An ideal SSL warning would empower users to make informed decisions and, failing that, guide confused users to safety. Unfortunately, users struggle to understand and often disregard real SSL warnings. We report on the task of designing a new SSL warning, with the goal of improving comprehension and adherence.We designed a new SSL warning based on recommendations from warning literature and tested our proposal with microsurveys and a field experiment. We ultimately failed at our goal of a well-understood warning. However, nearly 30% more total users chose to remain safe after seeing our warning. We attribute this success to opinionated design, which promotes safety with visual cues. Subsequently, our proposal was released as the new Google Chrome SSL warning. We raise questions about warning comprehension advice and recommend that other warning designers use opinionated design.
Sequential fluid delivery with minimized external equipment is vital towards a point-of-care diagnostic device. In this work, we have further developed the On-chip Electrowetting Valves concept for the sequential delivery of the reagents to the reaction site in a miniaturized capillary-driven microfluidic chip. Specifically, a disposable polymeric microfluidic device was developed containing capillary force driven microchannels. The device was fabricated using laser ablation and inkjet printing and required no external pumping equipment. The assay was conducted on the microchip containing microfluidic channels with embedded electrowetting valves and a porous membrane patterned with capture molecules and colloidal gold labels. To conduct the assay, the microchip was connected with a low voltage supply which was capable of sequentially opening the valves, delivering the sample and the rinsing reagent to generate visual results. Using T7 bacteriophage as a model, we have demonstrated the development of the device, operation of the valves and execution of the automated assay.
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