A research group led by Professor Hiroaki SUZUKI and Takeshi HAYAKAWA from the Faculty of Science and Engineering at Chuo ...

Various tissues and organs in the human body, such as nerves, heart, bones, and skin, rely on bioelectrical signals to maintain function and support ...

A research group led by Professor Hiroaki SUZUKI and Takeshi HAYAKAWA from the Faculty of Science and Engineering at Chuo University, graduate student Zhitai HUANG, graduate students Kanji KANEKO (at ...

A research group has developed a novel and highly accessible technology for producing uniform biomolecular condensates using ...

Abstract:A research group led by Professor Hiroaki SUZUKI and Takeshi HAYAKAWA from the Faculty of Science and Engineering at Chuo University ...

Researchers from Tomsk Polytechnic University, as part of an international scientific collaboration, have presented a ...

Empa researchers have strengthened ultra-light, flexible composite materials used in satellite insulation by introducing an artificial ultra-thin interlayer between metal and polymer films. The ...

Scientists have developed a new material that converts motion into electricity (piezoelectricity) with greater efficiency and without using toxic lead - paving the way for a new generation of devices ...

Piezoelectric materials have emerged as versatile platforms with transformative potential in biomedical research, yet their clinical translation remains limited. This mini review examines how these ...

Abstract: This paper investigates the tracking control problem of hysteresis nonlinear systems with irregular constraint boundaries. By blending the constraint boundary with the barrier function and ...

Abstract: The current paper presents our recent progress in the analysis and simulation of the electromechanical response of piezoelectric actuators. Of particular interest is the general behavior of ...