The Research on Loading Effect of Energy Transfer Model-Based QCM Immunosensor

Yan Chen; Xian He Huang

doi:10.4028/www.scientific.net/AMM.401-403.1149

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The Design of Moisture Content of Lubricating Oil Detecting System Based on AD5933
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The Determination of Fluorescent Whitening Agent VBL by Fluorescence Spectroscopy
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The Fault Diagnosis System of Measure and Control Radar Servo Motor Based on Ship in BP Neural Network
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The Pressure Loss Alarm System of Circulating Water in Calcium Carbide Furnace
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The Research on Loading Effect of Energy Transfer Model-Based QCM Immunosensor
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The Simulation Research for Defect in Pipes Based on Time Reversal Ultrasonic Guided Wave
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The Study of Thread Parameter Based on Machine Vision for Automatic Measurement
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The Analysis of Mechanism for Generating and Detecting Torsional Guided Wave
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Uncertainty Evaluation of Measurement Results for the Determination of Selenium in Shiitake by Hydride-Atomic Fluorescence Spectrometry
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 401-403The Research on Loading Effect of Energy Transfer...

The Research on Loading Effect of Energy Transfer Model-Based QCM Immunosensor

Abstract:

To improve the accuracy of quartz crystal microbalance (QCM) immunosensor, it is the key to distinguish accurately and effectively about the effects of mass loading and damping loading of a quartz resonator vibrating in damping environment. The energy transfer model (ETM) is introduced to deduce functional relationship between the product of absolute viscosity and density of the liquid deposit and the maximum amplitude of vibration at the quartz-resonator surface. Then the effect of mass loading can be rapidly distinguished from damping loading by measuring the frequency shift and the amplitude of QCM. This method provides a new theoretical basis for the application of QCM immunosensor in medical diagnosis, especially in tumor diagnosis.