SIMLab
@ZhaoSIMLab
Twitter account for the Soft Intelligent Materials Laboratory @Stanford PI: @reneezhao13
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The lab recently attended MECON 2024! Check out Sophie Leanza's (best podium presentation) thoughts on the conference! engineering.stanford.edu/magazine/mecha…
Our recent work "Magnetically Actuated Reconfigurable Metamaterials as Conformal Electromagnetic Filters" was selected for the Editors' Choice series
Selected for Editors' Choice series 🏆 "Magnetically Actuated Reconfigurable Metamaterials as Conformal Electromagnetic Filters" onlinelibrary.wiley.com/doi/10.1002/ai… @ReneeZhao13 @StanfordEng @WileyEngineer
Taking 4D printing using liquid crystal elastomers to the next level! Here, freestanding lattices are printed on-the-fly, providing new design freedom and fabrication capabilities. @ReneeZhao13 @StanfordEng @GeorgiaTech Check it out: ow.ly/4cHj50KvsMI
Origami mini-robot does gymnastics for a good cause go.nature.com/3OiWflX
nature.com
Origami mini-robot does gymnastics for a good cause
Nature - An expertly creased soft robot can swim, navigate obstacles and deliver cargoes of drugs.
Check out our origami millirobot that rolls, flips, and spins!
Take our origami millirobot for a spin! The all-in-one origami utilizes its geometric feature for self-adaptive amphibious motion, which is coupled with the folding-induced pumping for targeted drug delivery. nature.com/articles/s4146… Follow us on Twitter @ZhaoSIMLab
Check out our cover article "Soft robotic origami crawler"!
In this week’s issue of Science Advances, check out a new molecular phylogeny of mysterious cheilostome bryozoans, designing “greener” pesticides, and more: fcld.ly/3kmfal2
The September issue of Advanced Intelligent Systems is now online! Read openaccess articles about Soft Grippers, Ring Origami, Machine Learning, and more! onlinelibrary.wiley.com/toc/26404567/2…
An octopus-inspired robotic arm whose complex movements can be controlled remotely could lead to improved medical devices. go.nature.com/3Dw1LNv
Our recent paper on "ring origami" allows for self-guided snap-folding of bistable rings for foldable / deployable 3D structures with large packing ratio.
An new ring-based origami design enables the self-guided folding and deployment of pop-up structures for various biomedical, robotic, and aerospace applications. @ReneeZhao13 @ShuaiWu001 @MEGeorgiaTech @OhioStateMAE Read the news highlight: ow.ly/FsjU50FRwvV
Our recent work on magnetic dynamic polymers that permit magnetic-assisted assembly and welding, magnetization reprogramming, and permanent structural reconfiguration!
Like a Kraken's tentacles emerging menacingly from the water 🐙 This dynamic, magnetic polymer allows researchers to create a number of programmable morphing structures @MEGeorgiaTech @OhioStateMAE Read the paper: ow.ly/WxOi50FeE6C
Our recent paper: Untethered control of functional origami microrobots with distributed actuation pnas.org/content/early/… @OhioStateMAE @OhioState
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