Development of Corrosion‐Resistant Pressure Sensor with Semiconductor Strain Sensor

Abstract: In automotive and industrial fields, pressure sensors are a key component for precisely controlling the mechanical systems. Conventional micro electro mechanical system (MEMS)-based pressure sensors have an advantage in noise resistance, because both strain gauges and control circuits are integrated in one chip. However, the MEMS-based pressure sensors are generally fabricated on an Si substrate, and have a low stability against various active gases. Thus, we have newly proposed a pressure sensor which consist… Show more

“…[8][9][10][11][12][13] Generally, numerous traditional strain sensors are based on metals (Au, [14,15] Ag, [16][17][18][19] and ZnO nanowires [20] ) or semiconductors. [21][22][23] Yet, the main drawback of these sensors is the lack of the high sensitivity and large workable strain range simultaneously. Compared with these traditional sensors, flexible strain sensors have many advantages, such as flexibility, tensibility, wearability, and biocompatibility.…”

Flexible strain sensor based on biomass‐derived material

“…[8][9][10][11][12][13] Generally, numerous traditional strain sensors are based on metals (Au, [14,15] Ag, [16][17][18][19] and ZnO nanowires [20] ) or semiconductors. [21][22][23] Yet, the main drawback of these sensors is the lack of the high sensitivity and large workable strain range simultaneously. Compared with these traditional sensors, flexible strain sensors have many advantages, such as flexibility, tensibility, wearability, and biocompatibility.…”

Flexible strain sensor based on biomass‐derived material

Improved Remote-Control Wireless Sensing System of Plant Growth Factors in Greenhouse Environment