Murata is active in R&D of new electronic components, seeking infinite possibilities with ceramic materials. Particularly, as a pioneer in the development of piezoelectric ceramics, Murata has met the needs of the technical revolution in electronics
Point-by-Point Scanning Piezoelectric Phased Array for detecting damage for SHM ,李新刚,Wang Zhenqing ,The aim of the present work is to develop a system of smart devices that could be permanently attached on the surface of the structure for monitoring
Recently, hybrid energy harvester has been considered as an attractive potential approach to response the worldwide energy crisis due to the combination of advantages from different harvesting mechanism. In this paper, a novel low-frequency wide-band
A lateral field excited AlN film bulk acoustic enzyme biosensor was reported for the highly sensitive detection of residual pesticides. Acetylcholinesterase enzyme is assembled on one of the faces of the piezoelectric resonator as the sensitive coati
To efficiently scavenge ambient vibration energy and wind energy at the same time, a low-frequency piezoelectric harvester was designed, fabricated and tested. A lumped-parameter model of the cantilevered piezoelectric energy harvester with a proof m
The third-order susceptibility of In_(x)Ga_(1-x)N/GaN quantum well (QW) has been investigated by taking into account the strain-induced piezoelectric (PZ) field, and the effective-mass Schrodinger equation is solved numerically. It is shown thatthe t
The piezoelectric film electro-deposition for optical fiber sensor with ZnO coating is studied. The zinc oxide plating film is made on the copper surface directly by cathodic electro-deposition in the Zn(NO3)2 single salt aqueous solution systems. Th
This study demonstrates a novel fluid energy driven piezoelectric generator with simple structure for generating the electrical power from fluid energy, such as wind energy or water energy. The key components generating the electrical energy in the f
Flexural vibration mode piezoelectric ceramic transducers can be used in many application fields because of their ability to develop large displacement at low levels of electrical excitation, or conversely, to generate high output from sources of low
