Category Physics

Researchers from the University of Houston have reported a breakthrough in stretchable electronics that can serve as an artificial skin, allowing a robotic hand to sense the difference between hot and cold.
Credit: University of Houston

UH researchers discover new form of stretchable electronics, sensors and skins, allowing a robotic hand to sense the difference between hot and cold, while also offering advantages for a wide range of biomedical devices. The work, reported in the journal Science Advances, describes a new mechanism for producing stretchable electronics, a process that relies upon readily available materials and could be scaled up for commercial production.

Cunjiang Yu, Bill D...

Plants like the Jewelweed (Impatiens capensis; or commonly, spotted touch-me-not) use stress ingeniously for the ballistic dispersal of their seeds. The plant stores energy in its seed pods in the form of inbuilt stresses by controlling tissue hydration. When gently touched, these pods explode and curl up to launch their seeds. Using a similar concept, S. Sundaram and coworkers demonstrate the use of 3D-printing to fabricate flat electronic composites with residual stress in specific regions. Credit: Massachusetts Institute of Technology

Researchers from MIT’s Computer Science and Artificial Intelligence Laboratory (CSAIL) and colleagues report a printable structure that begins to fold itself up as soon as it’s peeled off the printing platform...

In the long-range backscatter system developed by UW researchers, this sensor allows devices that run on extremely low power for the first time to communicate over long distances.. Credit: Dennis Wise/University of Washington

University of Washington researchers have demonstrated for the first time that devices that run on almost zero power can transmit data across distances of up to 2.8 km—breaking a long-held barrier and potentially enabling a vast array of interconnected devices. Eg, flexible electronics. But today’s flexible electronics and other sensors that can’t employ bulky batteries and need to operate with very low power typically can’t communicate with other devices more than a few feet or meters away...

This image shows a self-reconfiguring modular robots scheme. Credit: Iridia Lab ULB

Self-reconfiguring modular robots that can merge, split and even self-heal while retaining full sensorimotor control. Researchers at the Université libre de Bruxelles have developed self-reconfiguring modular robots that can merge, split and even self-heal while retaining full sensorimotor control. The work may take us closer to producing robots that can autonomously change their size, shape and function. The study is published in the scientific review Nature Communications.

Many robots are controlled by robotic nervous systems in which sensors and actuators are connected to a central processing unit...