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Video/AnimationPeter Nguyen: Biology Engineering, Bigfoot Hunting, and Better Climate TechnologyWyss Senior Scientist Peter Nguyen received a B.S. in Biochemistry and B.A. in Philosophy from the University of Texas, his M.Bs. from the Keck Graduate Institute, and his Ph.D. in Biochemistry from Rice University. At the Wyss Institute, Peter currently works on programmable probiotics and freeze-dried cell-free manufacturing technology across multiple platforms. His research interests... -
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/AnimationCirce: Using Microbes to Make Biodegradable ProductsCurrent manufacturing methods release harmful greenhouse gases and pollution, and many of the products produced do not biodegrade, damaging our ecosystems even further. What if we could turn greenhouse gases into biodegradable products? Researchers at the Wyss Institute are using synthetic biology to make this a reality. Credit: Wyss Institute at Harvard University -
Video/AnimationSoft Robotic Gripper for Jellyfish 2.0Scientists from the Wyss Institute at Harvard University and CUNY have created ultra-soft robotic grippers that resemble fettuccini noodles to safely catch and release delicate underwater creatures like jellyfish without harm. Credit: Wyss Institute at Harvard University -
Video/AnimationRomu: A Robot for Environmental ProtectionResearchers at the Wyss Institute have developed a robot designed to drive interlocking sheet piles into the ground to help stabilize soil. Teams of such robots could help combat erosion, restore damaged landscapes, and facilitate sustainable land management in a variety of settings. Credit: Wyss Institute at Harvard -
Video/AnimationSoft Robotic Arms: Giving Biologists a Delicate, Deep-sea ReachWhat good is a soft robotic hand without a soft robotic arm to move it? Wyss researchers have now created a soft, modular underwater arm that can help marine biologists study hard-to-reach organisms in the deep sea. Credit: Wyss Institute at Harvard University -
Audio/PodcastDisruptive: Soft Robotics for Deep Sea ExplorationThe deep ocean is the least explored environment on Earth, and scientists estimate that many thousands of species are yet to be encountered. Marine researchers depend on tools primarily developed for the military or the oil and gas industry to study and capture undersea organisms. Many of them are extremely fragile, some thousands of years... -
Video/Animation3D-Printed Soft GrippersWhat’s the easiest way to pick up soft-bodied sea creatures? 3D-printed soft robots. Watch as an interdisciplinary team of marine biologists, engineers, and roboticists create custom-made soft grippers on-board the Schmidt Ocean Institute’s R/V Falkor, allowing them to safely sample many types of delicate sea life in the Phoenix Islands Protected Area (PIPA). Credit: Wyss Institute... -
Video/AnimationHAMR: Robotic Cockroach for Underwater ExplorationsThis video shows how the HAMR can transition from land to water, paddle on the surface of water, or sink to the ground to start walking again just as it would on dry land. Credit: Yufeng Chen, Neel Doshi, and Benjamin Goldberg/Harvard University -
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/AnimationRobobee: Saving Energy While in the AirThe RoboBee, pioneered at the Harvard Microrobotics Lab, uses an electrode patch and a foam mount that absorbs shock to perch on surfaces and conserve energy in flight. Credit: Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS) -
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/AnimationSoft Robotic Grippers For Deep-Sea ExplorationIn this video, two types of soft robotic grippers are shown successfully collecting coral samples at the bottom of the Red Sea. The first gripper features opposing pairs of bending actuators, while the second gripper – inspired by the coiling action of a boa constrictor – can access tight spaces and clutch small and irregular... -
Video/Animation4D Printing: Shapeshifting ArchitecturesA team at the Wyss Institute and Harvard SEAS has developed a new microscale printing method to create transformable objects. These “4D-printed” objects go a step beyond 3D printing to incorporate a fourth dimension: time. The method was inspired by the way plants change shape over time in response to environmental stimuli. This orchid-shaped structure... -
Video/AnimationCRISPR-Cas9: Safeguarding Gene DrivesIn this animation, learn how effective safeguarding mechanisms developed at the Wyss Institute and Harvard Medical School can be applied to ensure gene drive research is done responsibly in the laboratory. These safeguards enable responsible scientific investigation into how gene drives could one day be leveraged for the greater good of human health, agriculture, and... -
Video/AnimationRoboBee: From Aerial to AquaticThe RoboBee is a miniature robot that has long been able to fly. But what if the RoboBee lands in water? Using a modified flapping technique, researchers at the Harvard John A. Paulson School of Engineering and Applied Sciences and the Wyss Institute for Biologically Inspired Engineering at Harvard University have demonstrated that the RoboBee...