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Thin film flexible/bendable acoustic wave devices: Evolution, hybridization and decoupling of multiple acoustic wave modes (2018)
Journal Article
Tao, R., Wang, W., Luo, J., Hasan, S., Torun, H., Canyelles-Pericas, P., Zhou, J., Xuan, W., Cooke, M., Gibson, D., Wu, Q., Ng, W., Luo, J., & Fu, Y. (2019). Thin film flexible/bendable acoustic wave devices: Evolution, hybridization and decoupling of multiple acoustic wave modes. Surface and Coatings Technology, 357, 587-594. https://doi.org/10.1016/j.surfcoat.2018.10.042

Based on theoretical analysis, finite element simulation and experimental verifications, we have systematically investigated evolution, hybridization and decoupling of multiple acoustic wave modes and vibration patterns generated from piezoelectric f... Read More about Thin film flexible/bendable acoustic wave devices: Evolution, hybridization and decoupling of multiple acoustic wave modes.

Bimorph material/structure designs for high sensitivity flexible surface acoustic wave temperature sensors (2018)
Journal Article
Tao, R., Hasan, S., Wang, H., Zhou, J., Luo, J., McHale, G., Gibson, D., Canyelles-Pericas, P., Cooke, M., Wood, D., Liu, D., Wu, Q., Ng, W., Franke, T., & Fu, Y. (2018). Bimorph material/structure designs for high sensitivity flexible surface acoustic wave temperature sensors. Scientific Reports, 8, Article 9052. https://doi.org/10.1038/s41598-018-27324-1

A fundamental challenge for surface acoustic wave (SAW) temperature sensors is the detection of small temperature changes on non-planar, often curved, surfaces. In this work, we present a new design methodology for SAW devices based on flexible subst... Read More about Bimorph material/structure designs for high sensitivity flexible surface acoustic wave temperature sensors.

The Effect of Humidity on Microwave Characteristics of 2 Screen Printed Paper-Based Electronics (2018)
Journal Article
Shenton, S. A., Cooke, M. D., Racz, Z., Balocco, C., & Wood, D. (2018). The Effect of Humidity on Microwave Characteristics of 2 Screen Printed Paper-Based Electronics. physica status solidi (a) – applications and materials science, 215(11), Article 1700689. https://doi.org/10.1002/pssa.201700689

This paper addresses one of the key issues in using paper electronics at microwave frequencies. As paper is hygroscopic, the varying moisture content can lead to differing dielectric and even conductive properties of paper electronics and must be tak... Read More about The Effect of Humidity on Microwave Characteristics of 2 Screen Printed Paper-Based Electronics.