Surface acoustic wave relative humidity sensor based on sputtering SiO <sub>2</sub> film
Xiaopeng Yan, Cuiping Li, Lei Zhao, Shuzhen Tian, Zeyu Zhang, Mingji Li, Hongji Li, Lirong Qian, Xiaonan Gong, Yihang Huang, Hou Tao, Haibin Bai, Baohe Yang
Abstract
A surface acoustic wave (SAW) relative humidity (RH) sensor was prepared by sputtering SiO 2 sensing film on the total surface of an SAW resonator. The prepared humidity sensor exhibits good linear relationship under wide RH range of 10%–80%. Small hysteresis is observed during the adsorption and desorption processes. The sensitivity of the sensor is −1.14 kHz/% for the adsorption process and −1.06 kHz/% for the desorption process. The sensing mechanism of the sensor can be explained from the mass loading effect of the SiO 2 film. The response time is 6.0 s and the recovery time is 21.3 s when the RH switches between 10% and 70%. Moreover, the SAW sensor also shows good repeatability and stability due to the high adhesion of the sputtering SiO 2 film to the substrate.