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Wyss Institute for Biologically Inspired Engineering
Fast on-demand multi-material multi-nozzle 3D printing in a fraction of the time
First flying microrobot with soft actuators
3D-printed organs gain a major building block process with SWIFT
A portable exosuit assists both walking and running
Opening a door to new bioactive healing strategies
A microfluidic organ chip model of the human blood-brain barrier for development of brain-targeting therapeutics
Replacing conventional pistons with compressible structures inside a membrane made of soft materials
Nanoparticle robots start to come together as ‘gray goo’
Deactivated platelets offer a potential drug-free, reversible antiplatelet therapy reducing the risk of bloodclots
A wearable safe sensor for use in diagnostics, therapeutics, human-computer interfaces, and virtual reality
New robots with sticky feet can inspect complex machines without taking them apart
First yeast biohybrid system using an adaptable light-harvesting semiconductor opens the door to more efficient and versatile biomanufacturing
Saving electricity and costs by filtering liquids with liquids
Submarines now have soft robotic arms for handling delicate sealife
Fully wearable soft exosuit with automatic tuning helps users save energy
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About Us