Abstract Dengue virus is one of the most medically important flaviviruses, and it can cause the dengue fever or severe dengue hemorrhagic fever dengue shock syndrome in human being. However, there are no effective drugs or vaccines developed for the treatment or prevention of dengue fever. Yersinia pestis is the pathogen of plague and transmitted by the mouse flea and caused twenty million people death in Europe in history. Although there was no plaque case happened in Taiwan since 1952, it is necessary to develop a rapid and effective detection method for plague. Biosensors are devices that incorporate a biologically active sensing material into a transducer. Piezoelectric immunosensor, which is based on a combination of specific monoclonal antibody recognition and very sensitive quartz crystal microbalance (QCM). According to Sauerbrey equation , the frequency decrease is proportional to the mass change. Antibody immobilization is most important for development of a piezoelectric immunosensor, and the present immobilization methods are mainly based on self-assembled monolayer (SAM). In this study, we developed the quartz crystal immunosensor with anti-NS1 and anti-F1 monoclonal antibodies immobilized by using 11-Mercaptoundecanoic acid ( 11-MUA ) and Cystamine-glutaraldehyde method, and 11-MUA method had better efficiency of antibodies immobilization. The immunosensors can detect NS1 and F1 protein by using automatic adsorption device in a range of 0.1~20 μg/mL within 5 minutes and the result showed high linear relationship ( R2 are 0.9944 and 0.9889 ) with the detection limit at 0.1 μg/mL. The detection of NS1 and F1 protein mixed with HSA in the same concentration with equal volume showed high specificity and linear relationship, and the average relative standard deviation of the detection were less than 20 %. The successive work of this study is to establishing quartz crystal immunosensor of dengue virus and plague with the characteristics of high sensitivity, rapidly detection, low cost and easy operation.