Researchers fabricated a stimulus-responsive #hydrogel #microactuator with different bending performance using 2PP-based #4Dprinting coupled with a gradient printing strategy, opening avenues for versatile applications.
#OpenAccess in Nanotechnology Reviews: doi.org/10.1515/ntre...
#OpenAccess in Nanotechnology Reviews: doi.org/10.1515/ntre...
August 21, 2025 at 5:30 AM
Researchers fabricated a stimulus-responsive #hydrogel #microactuator with different bending performance using 2PP-based #4Dprinting coupled with a gradient printing strategy, opening avenues for versatile applications.
#OpenAccess in Nanotechnology Reviews: doi.org/10.1515/ntre...
#OpenAccess in Nanotechnology Reviews: doi.org/10.1515/ntre...
New microactuator driving system could give microdrones a jump-start
An innovative circuit design could enable miniature devices, such as microdrones and other microrobotics, to be powered for longer periods of time while staying lightweight and compact. Researchers from the University of…
An innovative circuit design could enable miniature devices, such as microdrones and other microrobotics, to be powered for longer periods of time while staying lightweight and compact. Researchers from the University of…
New microactuator driving system could give microdrones a jump-start
An innovative circuit design could enable miniature devices, such as microdrones and other microrobotics, to be powered for longer periods of time while staying lightweight and compact. Researchers from the University of California San Diego and CEA-Leti developed a novel self-sustaining circuit configuration—featuring miniaturized solid-state batteries—that combines high energy density with an ultra lightweight design. Full coverage on TechXplore Credits : TechXplore hi-tech news, hitech, innovation , inventions , computer news, information technology
goozle.in
February 18, 2025 at 7:09 PM
New microactuator driving system could give microdrones a jump-start
An innovative circuit design could enable miniature devices, such as microdrones and other microrobotics, to be powered for longer periods of time while staying lightweight and compact. Researchers from the University of…
An innovative circuit design could enable miniature devices, such as microdrones and other microrobotics, to be powered for longer periods of time while staying lightweight and compact. Researchers from the University of…