Apr 6
In a recently published study, the Dutch team describes an unexpected behavior observed in a 3D-printed microstructure. The "robot" consists
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In a recently published study, the Dutch team describes an unexpected behavior observed in a 3D-printed microstructure. The "robot" consists
I microrobot imitano la crescita ossea: nuovi possibili sviluppi in aiuto delle cure delle fratture
I microrobot imitano la crescita ossea: nuovi possibili sviluppi in aiuto delle cure delle fratture
Photo by Susanne Schwarz on Unsplash Ispirandosi alla crescita delle ossa nello scheletro, i ricercatori delle università di Linköping (Svezia) e Okayama (Giappone) hanno sviluppato una combinazione di materiali che possono trasformarsi in varie forme prima dell’indurimento. Il materiale è inizialmente morbido, ma in seguito si indurisce attraverso un processo di sviluppo osseo che utilizza gli…
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Army of a million microscopic robots created to explore on tiny scale
Army of a million microscopic robots created to explore on tiny scale
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By Layal Liverpool
Artist’s rendition of an array of microscopic robots
Criss Hohmann
A troop of a million walking robots could enable scientific exploration at a microscopic level.
Researchers have developed microscopic robots before, but they weren’t able to move by themselves, says Marc Miskin at the University of Pennsylvania. That is partly because of a lack of…
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Harvard shrank its insect-inspired microrobot to the size of a penny Harvard researchers have made the tiny Harvard Ambulatory Microrobot (HAMR) even tinier. The next-gen, cockroach-inspired robot is about the size of a penny, and it can run at speeds of 13.9 body lengths per second. That makes it one of the smallest...
#Rifiutiradioattivi, ci penseranno i #microrobot ad eliminarli !!!!! salviamoci salvando il #Pianeta !!!! #seasy #seasy_blog #seasy_fbp #wd57 #walsat #vk #vkpost https://www.hdblog.it/Tecnologia/articoli/n511996/rifiuti-radioattivi-microrobot-pulizia/ https://www.instagram.com/p/B4eMF_9IonY/?igshid=17qs202opazkk
Recent advances in micro 3D printing now allow researchers to create simple microrobots that can be controlled by magnetic 🧲 fields to deliver stem cells (bottom left) to specific areas of an organism where they can mature into developed cells (bottom right - neuronal cells). This could allow dramatic improvements in medicine in the near future to regrow damaged tissue and organs 🧠. . What do you think about the latest research findings? What else do you think microrobots can be used for? Leave a comment. . Credit: SJeon et al. (2019). Magnetically actuated microrobots as a platform for cell transplantation. Science Robotics. Vol. 4, 30. . DOI: 10.1126/scirobotics.aav4317. . NBenvenisty - Russo (2005). The Politics of Embryonic Stem Cell Research. PloS. . MJones / CC BY-SA 2.5. . #biology #nanotech #nanorobots #microrobot #microrobotics #stemcells #threedimensional #evolution #microbiology #magnetic #medicine #medical #medicalbreakthrough https://www.instagram.com/p/BybStKnBL4s/?igshid=19tehtii2yji7
Dicari! Robot Ukuran Serangga untuk Ikut Olimpiade SHRIMP Badan Riset AS
Dicari! Robot Ukuran Serangga untuk Olimpiade Badan Riset AS
Badan Proyek Riset Lanjutan Pertahanan AS sedang menggarap proyek unik. Saat ini badan yang sering disingkat DARPA atau Defense Advanced Research Project Agency ini tengah mencari proposal pengembangan robot ukuran serangga, yang nanti akan diikutsertakan dalam program SH-ort-Range Independent Microrobotic Platforms atau SHRIMP alias Platform Robot Mikro Independen Jangka Pendek-Menengah.
Program…
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In nature, cockroaches can survive underwater for up to 30 minutes. Now, a robotic cockroach can do even better. Harvard’s Ambulatory Microrobot, known as HAMR, can walk on land, swim on the surface of water, and walk underwater for as long as necessary, opening up new environments for this little bot to explore. This next generation HAMR uses multifunctional foot pads that use surface tension and buoyancy to swim but can also apply a voltage to break the water surface when it needs to sink. Once below the surface of the water, HAMR uses the same gait to walk as it does on dry land and is just as mobile.⠀ #Harvard #HarvardSEAS #research #robot #robotics #microrobot @wyssinstitute (at Harvard John A. Paulson School of Engineering and Applied Sciences)