Preliminary Study of Resonant Mass Sensors Based on Asymmetrically Gapped Cantilevers

This paper reports the proof of concept of resonant mass sensors based on asymmetrically gapped cantilevers using a mesoscale prototype. The asymmetrically gapped cantilever structure helps to increase the displacement sensitivity signifi cantly and consequently increases the mass resolution. The body of the mesoscale prototype was machined from an aluminum piece and the displacement sensing element was a lead zirconate titanate (PZT) sheet separated from the bottom mechanical beam. A PEEK (Polyetheretherketone) tubing was wrapped around the resonator for the flow-through measurement of liquid samples. The sensor was characterized with different liquid solutions. A minimum detectable density difference of 6.0 × 10^-5 g cm^-3 was achieved. With a sample volume of 38 μL, the minimum detectable mass was 2.3 μg.