Litcius/Paper detail

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

2021Surface and Interface Analysis18 citationsDOI

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.

Topics & Concepts

Surface acoustic waveSputteringRelative humidityDesorptionMaterials scienceHysteresisHumidityRepeatabilityAdsorptionResonatorSurface acoustic wave sensorThin filmAnalytical Chemistry (journal)Substrate (aquarium)OptoelectronicsChemistryAcousticsNanotechnologyChromatographyThermodynamicsQuantum mechanicsOrganic chemistryGeologyPhysicsOceanographyAcoustic Wave Resonator TechnologiesGas Sensing Nanomaterials and SensorsAnalytical Chemistry and Sensors