17 Nov 2021
A Persoanlised Exoskeleton for Real-World Walking
Researchers have developed a new approach in which robotic exosuit assistance can be calibrated to an individual and adapt to a variety of real-world walking tasks in a matter of seconds. The bioinspired system uses ultrasound measurements of muscle dynamics to develop a personalized and activity-specific assistance profile for users of the exosuit.
27 Aug 2021
Paving the Way for Small but Mighty Robots
An interdisciplinary team of roboticists, engineers and biologists have modeled the mechanics of the mantis shrimp's punch and built a robot that mimics the movement. The research sheds light on the biology of these pugnacious crustaceans and paves the way for small but mighty robotic devices.
23 Aug 2021
3D Printed, Biocompatible Graft Could Repair Damaged Ear Drum
The PhonoGraft device is a 3D-printed, biocompatible graft that could be implanted to repair a damaged eardrum. If its clinical development is successful, the PhonoGraft technology could mitigate the pain, drainage, and hearing loss associated with ear drum perforations that affect millions of individuals worldwide.
13 Aug 2021
Low Cost Device For Consumers to Home Test Themselves for SARS-CoV-2
With the Delta variant wreaking havoc on unvaccinated populations and COVID-19 cases spiking around the world, the pandemic is far from over. Despite the impressively fast development of SARS-CoV-2 diagnostic tests over the last year and a half, the vast majority of patient samples must still be sent to a lab for processing, which slows down the pace of COVID-19 case tracking. If a sample is to be tested for a specific variant of the virus, it must be genetically sequenced, which takes even more time and resources.
29 Jun 2021
Face Masks That can Diagnose COVID-19
Most people associate the term "wearable" with a fitness tracker, smartwatch, or wireless earbuds. But what if you could wear cutting-edge biotechnology in your clothing, and it could warn you when you were exposed to something dangerous?
15 Sep 2020
Wool-Like Material Could be Used in Smart Textiles, Medical Devices
Researchers have developed a biocompatible material that can be 3D-printed into any shape and pre-programmed with reversible shape memory. The material is made using keratin, a fibrous protein found in hair, nails and shells. The researchers extracted the keratin from leftover Agora wool used in textile manufacturing.
6 Aug 2020
New Streamlined Approach for Twisted 2D Materials
How layers of 2D materials are stacked can have a profound effect on the properties. The twist angles can be the only difference between relatively mundane performance and the capacity to behave as a superconductor.
27 May 2020
Soft Robotic Exosuit for Stroke Survivors
To allow stroke patients to recover, many rehabilitation centers have looked to robotic exoskeletons. But although there are now a range of exciting devices that are enabling people to walk again who initially were utterly unable to do so, there remains significant active research trying to understand how to best apply wearable robotics for rehabilitation after stroke.
10 Mar 2020
Octopus Inspired Robot can Grip, Move and Manipulate
Two-thirds of an octopus's neurons are in its arms, meaning each arm literally has a mind of its own. Octopus arms can untie knots, open childproof bottles, and wrap around prey of any shape or size. The hundreds of suckers that cover their arms can form strong seals even on rough surfaces underwater.
6 Mar 2020
Soft Robotic Fingers Gently Grasp Deep-Sea Jellyfish
Marine biologists have adopted "soft robotic linguine fingers" as tools to conduct their undersea research. Scientists found that jellyfish held by ultra-soft robotic fingers expressed significantly fewer stress-related genes than when braced by traditional submersible grippers. Shaped like the famous noodles, this new robotic technology allows for the collection of ecological data in a gentler, less invasive manner.
14 Nov 2019
Multimaterial 3D Printing Manufactures Complex Objects, Fast
A new technique called multimaterial multinozzle 3D printing uses high-speed pressure valves to achieve rapid, continuous, and seamless switching between up to eight different printing materials, enabling the creation of complex shapes in a fraction of the time currently required using printheads that range from a single nozzle to large multinozzle arrays.
6 Nov 2019
Sensor Could be Used for Microrobotics, Augmented Reality, Wearables
For all our technological advances, nothing beats evolution when it comes to research and development. Take jumping spiders. These small arachnids have impressive depth perception despite their tiny brains, allowing them to accurately pounce on unsuspecting targets from several body lengths away.
10 Sep 2019
A swifter way towards 3D-printed organs
Sacrificial ink-writing technique allows 3D printing of large, vascularized human organ building blocks.
26 Aug 2019
Self-folding "Rollbot" paves the way for fully untethered soft robots
The majority of soft robots today rely on external power and control, keeping them tethered to off-board systems or rigged with hard components. Now, researchers have developed soft robotic systems, inspired by origami, that can move and change shape in response to external stimuli, paving the way for fully untethered soft robots.
21 Aug 2019
Exosuit shows potential for wearable robots
Researchers have previously developed robotic devices for rehabilitation and other areas of life that can either assist walking or running, but no untethered portable device could efficiently do both.
24 Apr 2019
Snake-inspired robot slithers even better
Bad news for ophiophobes: Researchers have developed a new and improved snake-inspired soft robot that is faster and more precise than its predecessor.
28 Mar 2019
Artificial muscles for soft robots
Developing soft, artificial muscles that are also fast and strong is an important step in developing soft robots that can both safely interact with people and complete important tasks.