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ObjectiveTo establish a method of rapid detection of bacteria endotoxin based on interdigital gold electrode and surface acoustic wave (SAW).MethodsWith the carriers of 3-APTES and glutaral pentanedial,Polymyxin B (PMB) was immobilized on interdigital gold electrode,and then reacted with the bacteria endotoxin' s biological active material (lipopolysacchride,LPS) selectively.Double differential circuit based on SAW was employed to complete the detection.Two output oscillation signals were differentiated through mixer and the endotoxin content was described by frequency shift.ResultsThe experimental results indicated that there was a liner relationship between the frequency shift and endotoxin content within the content range of 75-130 EU/ml.ConclusionComparing with traditional method,the detection time is shortened to 10 minutes,the sensitivity is 13.8 KHz/(EU·mL-1),and repeatability is above 90%.
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Radio frequency identification sensor network, a technique integrating radio frequency identification (RFID) with wireless sensor network (WSN), is introduced. The basic structure of RFID sensor network is analyzed at first. Then components of RFID sensor and relevant supporting techniques including thin film battery, quartz crystal microbalance (QCM) and surface acoustic wave (SAW) are discussed. Research status and foregrounds of both domestic and international researches are introduced as well as applications in different fields.
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OBJECTIVE To design the detection system of the leaky surface acoustic wave(LSAW) biosensor in(liquid) phase and detect human papilloma virus(HPV) target sequence with the LSAW biosensor.METHODS A detection delay line and a reference delay line were constructed,the phase of the two delay line changes was(evaluated) in liquid phase,and real time monitoring of HPV reaction was performed by using the LSAW biosensor system.RESULTS The phase of the two delay lines had different changes in liquid phase;HPV could lead to a great change of the phase in the detection delay line,and reference delay line had no change.CONCLUSIONS The(detection) system of the LSAW biosensor in liquid phase is successfully constructed and real time monitoring of(detection) of HPV is realized.
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A new kind of biosensor for immunology was developed by ultrasonic technique and LB membrane. A double delay-line resonator was made by using ST-cut quartz crystal with working frequency of 149.7 MHz. Then a layer of LB membrane was covered on it. When anti-IgM antibody of various concentrations was added to it, the sensor can be used to detect IgM antigen. The biosensor was highly sensitive, small and light. The experimental results showed that the working frequency change of the sensor was proportional to the concentration of antibody with its dilution ratio between 1:10000 and 1:100. It was also first observed that the frequency curve of the sensor resulting from the reaction of IgM antigen and antibody undulated in the experiment.
RESUMEN
A new kind of biosensor for immunology was developed by ultrasonic technique and LB membrane. A double delay-line resonator was made by using ST-cut quartz crystal with working frequency of 149.7 MHz. Then a layer of LB membrane was covered on it. When anti-IgM antibody of various concentrations was added to it, the sensor can be used to detect IgM antigen. The biosensor was highly sensitive, small and light. The experimental results showed that the working frequency change of the sensor was proportional to the concentration of antibody with its dilution ratio between 1:10000 and 1:100. It was also first observed that the frequency curve of the sensor resulting from the reaction of IgM antigen and antibody undulated in the experiment.