Quartz Crystal Microbalance (QCM) biosensor has several advantages in analyzing the binding interaction among biomolecules, such as tiny size, specific binding and high sensitivity. Therefore it has been widely used as the equipment for biomolecule detection in the past few decades. Conventionally, most of existing studies utilizing QCM as bio-detection sensors have shortcoming with inefficiency, because of the limitation of the physical properties of microfluidics, analytes have difficulty to fully react with the immobilized ligand layer on the QCM sensor chip. An enhanced QCM is introduced in this study. It integrates with microelectromechanical technique and biosensor technique to produce electrothermal vortices flow in the QCM detecting chamber to increase the opportunity and efficiency of the binding of the immobilized ligand and the analytes carried in the fluid flow. In this study, a specific binding reaction of Human IgG1 - Anti-Human IgG1 protein pair is processed. The QCM chip is modified to integrate with the designed multi-microelectrode pairs, then operated the electrothermal effect, ETE, by 10 Vpp and 10 MHz to produce electrothermal vortices flow in reaction chamber. Ultimately, results of frequency reduction which enhanced by ETE effect were estimated. In the cases of different concentrations, the results show that there are notable improvenments in the reduction of resonant frequencies by comparing with those based on pure diffusion only, especially for the the case of low concentration. Simultaneously, the ETE effect gets further proved through immunofluorescence marker. Consequently, ETE is functional to enhance the mass-binding and improve the efficiency of detection.