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Video/AnimationeRapid: Bringing Diagnostics HomeSenior Research Scientist, Pawan Jolly, gives an overview of the eRapid Institute Project, a platform of multiplexed electrochemical sensors for fast, accurate, portable diagnostics. Credit: Wyss Institute at Harvard University
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Video/AnimationeRAPID: a Platform for Portable DiagnosticseRapid is an electrochemical sensing platform that uses a novel antifouling coating to enable low-cost, multiplexed detection of a wide range of biomolecules for diagnostics and other applications. Credit: Wyss Institute at Harvard
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Video/AnimationabbieSenseabbieSense is a Wyss technology that can detect histamine levels in human body fluids and determine the severity of an allergic reaction, which could help save the lives of patients with severe allergies. Credit: Wyss Institute at Harvard University
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Video/AnimationFouling Marine FoulingMarine fouling occurs when organisms attach themselves to underwater objects like boats, rope, pipes and building structures. Mussels are one of the biggest culprits. Once attached, they are difficult to remove, leading to operational downtime, increased energy use and damage. Paints and coatings are currently used to prevent marine fouling, but are frequently toxin-based and not...
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Video/AnimationEfficient Recovery of Stem Cell SheetsSee in this video how an intact sheet of mesenchymal stem cells, stained with a violet dye, can be lifted off the infused polymer substrate in the culture dish using a filter paper and transferred to a new surface. Credit: Wyss Institute at Harvard University
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Video/AnimationNew coating turns glass into superglassA transparent new coating makes ordinary glass tough, ultraslippery, and self-cleaning. The coating is based on SLIPS — the world’s slipperiest synthetic substance. Here, a droplet of dyed octane quickly beads up and rolls off a watch glass with the new coating. To learn more, go to Credit: Wyss Institute at Harvard University
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Video/AnimationSLIPS‘SLIPS’ technology, inspired by the slippery pitcher plant that repels almost every type of liquid and solid, is a unique approach to coating industrial and medical surfaces that is based on nano/microstructured porous material infused with a lubricating fluid. By locking in water and other fluids, SLIPS technology creates slick, exceptionally repellent and robust self-cleaning...
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Video/AnimationSLIPS: Keeping Ice AwayWhat if we could design surfaces that prevent ice formation? ‘SLIPS’ technology, inspired by the slippery pitcher plant that repels almost every type of liquid and solid, is a unique approach to coating industrial and medical surfaces that is based on nano/microstructured porous material infused with a lubricating fluid. By locking in water and other...