Extraction of material parameters from a multilayer multi-harmonic thickness shear mode (MTSM) sensor data using genetic algorithm

Abstract: A novel multi-resonant thickness shear mode (MTSM) sensor has been used to study multi-layer biological processes and to determine mechanical and geometrical properties of the layered structure by using a genetic algorithm for analyzing the sensor data. First, the genetic algorithm was tested theoretically. The Response of MTSM sensor loaded with a model biological system was simulated by using MTSM transmission line model (TLM) representation. Specifically, maximum amplitude and resonant frequency values at t… Show more

“…The dynamic range and the noise level are determined by the Q-factor of the TSM, which in turn is affected by the roughness, the flatness, and the level of defects in the membrane. Sensors used here were fabricated using a dedicated integrated circuit microfabrication process [ 36 , 37 ]. Piezoelectric materials (quartz) was cut and polished to the required thickness and shape.…”

“…When the BNS is loaded with a biological media the sensor response S21 will exhibit a shift in resonant frequency and a decrease in magnitude. Depending on the antibody-antigen interactions at the interface of the sensor surface and medium, a positive or negative shift can be seen in the frequency response [ 36 ]. These changes can be correlated to the mass accumulation on the sensor interface due to the binding of antigen (gp120) to the sensor probe antibody.…”

A Novel Point-of-Care BioNanoSensor for Rapid HIV Detection and Treatment Monitoring

“…The dynamic range and the noise level are determined by the Q-factor of the TSM, which in turn is affected by the roughness, the flatness, and the level of defects in the membrane. Sensors used here were fabricated using a dedicated integrated circuit microfabrication process [ 36 , 37 ]. Piezoelectric materials (quartz) was cut and polished to the required thickness and shape.…”

“…When the BNS is loaded with a biological media the sensor response S21 will exhibit a shift in resonant frequency and a decrease in magnitude. Depending on the antibody-antigen interactions at the interface of the sensor surface and medium, a positive or negative shift can be seen in the frequency response [ 36 ]. These changes can be correlated to the mass accumulation on the sensor interface due to the binding of antigen (gp120) to the sensor probe antibody.…”

A Novel Point-of-Care BioNanoSensor for Rapid HIV Detection and Treatment Monitoring