In a new breakthrough, researchers have used a novel technique to confirm a previously undetected physics phenomenon that could be used to improve data storage in the next generation of computer devices.
Researchers incorporate graphene microtubes into hydrogel actuators, achieving up to 400% faster response and 4000% higher stress without sacrificing strength. The nanoengineered hydrogels enable untethered light and electrical control, overcoming key limitations to expand possibilities in soft robotics and biomedical devices.
Researchers have developed an acoustic trapping chip that can provide three-dimensional (3D) trapping of cells in a continuously flowing medium with a circular resonance structure.
