Flexible and Fully Printed Passive RF Resonators for Contact‐Less Solution Sensing

In recent years, several efforts have been dedicated to the development of portable and versatile microwave technologies for contact-less liquid sensing and characterization. With respect to existing electrochemical and optical approaches, microwave liquid sensors enable high-sensitivity and label-free sensing with increased operation stability and robustness, and in relatively simple and inexpensive device formats. Nonetheless, current microwave solution sensing systems are still limited by either their reliance on wired connections to external electronics or by their widespread implementation on conventional rigid substrates. These limitations hinder the seamless integration of such sensors within conventional (micro)fluidic systems for real-time solution monitoring, particularly when near-field coupling between the sensors and the liquid under test needs to be established for operation. By leveraging the versatile material deposition capabilities granted by solution-phase processing, a fully printed and mechanically flexible microwave resonator design is introduced that allows untethered solution sensing whether immersed in or in proximity to the liquid under test. The mechanical properties of this device facilitate the noninvasive/nondestructive integration of the device on commercial tubing. These characteristics, along with its cost-effectiveness and its ease of fabrication, favor the seamless integration of this device into fluidic and microfluidic systems, for real-life applications.A cost-effective, fully-printed, flexible microwave resonator that can sense solutions, either immersed in or near the liquid is tested. Its mechanical design supports easy, noninvasive integration onto commercial tubing, making it ideal for fluidic and microfluidic systems in practical applications due to its simple fabrication process. image