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Video/AnimationcSNAP: Reimagining CoolingWe are reimagining air-conditioners to meet increasing global cooling demand while combatting climate change. Our novel evaporative cooling technology, cSNAP, uses advanced materials science and design to make affordable, environmentally-positive eco-friendly air conditioners that work in most climates without the use of synthetic refrigerants. Credit: Wyss Institute at Harvard University -
Video/AnimationLiquid-Infused Tympanostomy TubesResearchers at the Wyss Institute have developed next-generation tympanostomy tubes with an innovative material design that significantly reduces biofouling, implant size, need for revision surgeries, and promotes drug delivery into the middle ear. Credit: Wyss Institute at Harvard University -
Video/AnimationHow a Harvard Professor Makes Transforming Toys & DesignsHow a Harvard Professor Makes Transforming Toys and Designs was originally published by WIRED on November 29, 2018. This story features Associate Faculty member Chuck Hoberman. The original story can be found here. -
Video/AnimationFLIPS: Ferrofluid-Containing Liquid-Infused Porous SurfacesAs a magnetic field is applied and moved, the ferrofluid component of FLIPS responds dynamically, allowing the surface to be endlessly reconfigured. Credit: Harvard SEAS -
Video/AnimationHumans of the Wyss – Faculty Edition with Katia BertoldiOur new interview series, “Humans of the Wyss – Faculty Edition,” features Wyss Institute faculty members discussing how they think about their work, the influences that help shape them as scientists, and their collaborations at the Wyss Institute and beyond. In the first edition of the series, Lindsay Brownell, Wyss Institute Communications team member, talks... -
Video/AnimationCatalytic Nanoarchitectures for Clean AirThe Wyss Institute is developing a new type of coating for catalytic converters that, inspired by the nanoscale structure of a butterfly’s wing, can dramatically reduce the cost and improve the performance of air purification technologies, making them more accessible to all. Credit: Wyss Institute at Harvard University -
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... -
Video/AnimationHow plant stems grow into different shapesIt is well known that as plants grow, their stems and shoots respond to outside signals like light and gravity. But if plants all have similar stimuli, why are there so many different plant shapes? Using simple mathematical ideas, Harvard University researchers constructed a framework that explains and quantifies the different shapes of plant stems.... -
Video/Animation3D Printing Ceramic FoamThis video shows the 3D printing process that adds layer upon layer of the foam link to create a 3D porous ceramic honeycomb pattern. This new capability is an important step toward generating porous materials for lightweight structures, thermal insulation, tissue scaffolds and other applications. Credit: Lori Sanders -
Video/AnimationReconfigurable MaterialsThis video shows how a reconfigurable model structure generated with the teams predictive method can be drawn into different shapes that might perform very different functions. Credit: Harvard School of Engineering and Applied Sciences. -
Video/AnimationLiquid Gated MembranesThe first part of this animation compares the transmembrane pressure (TMP) between a standard filter and a liquid gated membrane filter (depicted by pressure gauge in bottom right corner). The second part of the animation shows the tendency of each system to clog up due to fouling. The liquid gated membrane filter results in a... -
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 -
Video/AnimationFluid GateIn this video, the fluid-based gating mechanism separates gas and water. The fluid-filled pores system leverages pressurization to control the opening and closing of its liquid gates, making it extremely precise at separating mixed materials. Credit: Wyss Institute at Harvard University -
Video/AnimationBioinspired Blood Repellent CoatingIn this video, Wyss Institute Founding Director Don Ingber, Core Faculty member Joanna Aizenberg, Staff Scientist Dan Leslie and Postdoctoral Fellow Anna Waterhouse explain how a coating they developed using FDA-approved materials could prevent blood clotting in medical devices without the use of blood thinners. Credit: Wyss Institute at Harvard University -
Video/AnimationDynamic Daylight Redirection SystemThis video shows Keojin Jin conducting a shoebox test that shows the light reflection effect to the top surface of the box as well as the reduction of direct light to the bottom surface of the box. Credit: Wyss Institute at Harvard University -
Audio/PodcastShrimp Shells Could Make the Green Plastic of the FutureUnlike other forms of bioplastic, like those made from potatoes or corn, chitin plastic does not simply replace the carbon source for the polymer, it actually replaces the carbon-based plastic polymer, making it a totally biodegradable and sustainable material. Researchers at Harvard’s Wyss Institute used chitin from discarded shrimp shells from a shrimp processing plant... -
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 -
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... -
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...