Soft magnetic, ferritic stainless steels must function flawlessly in a wide variety of corrosive environments while retaining the right balance of essential properties such as saturation induction, ...

Tactile switches with advanced contact materials improve signal integrity, durability, and lifecycle performance in demanding ...

The findings will lay a foundation for future applications in the clinical evaluation of skin cancers and or dermatology diseases. The research is co-led by Dr Yu Xinge, Assistant Professor from CityU ...

A research team has designed a simple electromechanical device that can be used for deep tissue pathology diagnosis, such as psoriasis, in an automated and non-invasive fashion. The findings will lay ...

Electromechanical devices play a wide range of roles in various devices. Their assembly can come with significant, unique manufacturing challenges because they require high levels of precision, ...

A new study finds that a class of electromechanically active materials called antiferroelectrics may hold the key to overcoming performance limitations due to clamping in miniaturized ...

Traditionally, electrical engineers have to choose: high-power switches that are unreliable and slow, or high-speed, high-precision switches that can’t handle that much power. Menlo Microsystems’ ...

A new technical paper titled “Noncontact excitation of multi-GHz lithium niobate electromechanical resonators” was published by researchers at Yale University. “The demand for high-performance ...

The research is co-led by Dr Yu Xinge, Assistant Professor from CityU’s Department of Biomedical Engineering, and scientists from and Northwestern University in the US. Their findings have been ...