Flexible dual-mode surface acoustic wave strain sensor based on crystalline LiNbO₃ thin film

Abstract: This work presents the development of flexible dual-mode surface acoustic wave (SAW) sensor based on single crystalline thin film lithium niobate (TF-LN). Numerical modeling is conducted to investigate the SAW propagation and the effects on strain sensitivity. The dependence of strain sensitivity on angles between the applied strain and SAW propagation direction is analyzed numerically and experimentally, showing that the maximum strain sensitivity is at 45° rather than longitudinal direction. 128° Y-cut TF-LN… Show more

“…Surface acoustic wave (SAW) devices have received extensive interest for sensor applications owing to their small size, high sensitivity and ability to interface with passive wireless systems [1][2][3][4][5][6]. SAW devices can be developed into highly sensitive sensors for continuously monitoring of hazardous and flammable gases in the sub-ppm regime if integrating with specifically designed sensing materials which are sensitive to a certain type of gas.…”

Colloidal quantum dot-based surface acoustic wave sensors for NO2-sensing behavior

“…Surface acoustic wave (SAW) devices have received extensive interest for sensor applications owing to their small size, high sensitivity and ability to interface with passive wireless systems [1][2][3][4][5][6]. SAW devices can be developed into highly sensitive sensors for continuously monitoring of hazardous and flammable gases in the sub-ppm regime if integrating with specifically designed sensing materials which are sensitive to a certain type of gas.…”

Colloidal quantum dot-based surface acoustic wave sensors for NO2-sensing behavior

“…For precision bio-detection, the TCF of the FBAR needs to be determined, and the measurement results are to be calibrated by temperature measured by an additional temperature sensor. Recently, a simple self-temperature calibrated method has been developed for FBAR and acoustic resonator sensors (Gu et al 2018;Liu and Flewitt 2014;Xu et al 2018). Most of FBARs with a support membrane have dual wave modes, and they have different sensitivities to temperature and analyte.…”

“…This can be utilized for decoupling the temperature effect from the bio-detection. If the fr of both wave modes, mode 1 and mode 2, are linear function of temperature and additional mass, and the mass sensitivities are as and , and the temperature sensitivities are and , respectively, then the total frequency shift for the mode 1 and mode 2 are expressed as following (Xu et al 2018):…”

Film bulk acoustic resonators (FBARs) as biosensors: A review

“…Compared with polycrystalline films, the piezoelectric properties of single crystals such as lithium niobite (LiNbO 3 ) are much better as single‐crystal materials have a very limited scattering and loss of grain boundaries and defects. Single crystal LiNbO 3 has achieved proper application in the field of SAW devices [4 ], and recently, a bulk acoustic resonator based on zy‐cut LiNbO 3 has proposed, but the Q factor is ∼300 [5 ]. It is yet to be explored for LiNbO 3 FBARs.…”

Ultrathin single‐crystalline LiNbO ₃ film bulk acoustic resonator for 5G communication