Results 131 to 140 of about 5,920,647 (307)
Pak Biawak, a necrobot, embodies an unusual fusion of biology and robotics. Designed to repurpose natural structures after death, it challenges conventional boundaries between nature and engineering. Its movements are precise yet unsettling, raising questions about sustainability, ethics, and the untapped potential of biointegrated machines.
Leo Foulds +2 more
wiley +1 more source
Spotting the "small eyes": using photo-ID methodology to study a wild population of smalleye stingrays (Megatrygon microps) in southern Mozambique. [PDF]
Boggio-Pasqua A, Flam AL, Marshall AD.
europepmc +1 more source
Colour photo of a group of people in formal attire sitting at the dinner table and talking.
Modbury Hospital
core
3D‐Nanoprinted Fluidically Steerable Soft Robotic Microcatheters
This work introduces a ∼3‐French (1 mm‐in‐diameter) soft robotic microcatheter fabricated by means of two‐photon direct laser writing. The 3D‐printed microcatheter enables remote, on‐demand steering via microfluidic actuation for guidewire‐free navigation of vascular networks as well as microcatheter‐mediated delivery of fluidic payloads to target ...
Bailey M. Felix +17 more
wiley +1 more source
Photo of Professor Rhodes [PDF]
Colour photo of Professor Rhodes, a doctor at Modbury ...
Modbury Hospital
core
FiN‐Kiri: Fabric‐Based Inflatable Kirigami Actuator for Multimodal Soft Robots
This study introduces a type of inflatable fabric‐based kirigami actuator capable of performing bending motion. The actuator is utilized as soft grippers, a crawling robot and a swimming robot. The crawling robot demonstrated extraordinary motion capabilities, such as moving forward, turning and navigating a narrow tunnel.
Yang Yu +12 more
wiley +1 more source
Modbury Hospital Staff photo [PDF]
Colour photo of two people, a man and a woman, presumably staff.
Modbury Hospital
core
Newsletter or Magazine photo 9 [PDF]
Black and white photo of a patient in Intensive care.
Modbury Hospital
core
Optimization of Magnetic Milli‐Spinner for Robotic Endovascular Intervention
This work presents the design optimization of a multifunctional magnetic milli‐spinner for high‐speed propulsion and efficient clot debulking. The optimized design achieves an ultrafast swimming velocity of 55 cm/s (≈175 body lengths/s) in saline water, enabling stable upstream swimming against strong physiological flows and establishing magnetic milli‐
Lu Lu +3 more
wiley +1 more source

