The plant disease such as Rice tungro disease (RTD) becomes a major problem in rice production and also will effect in the economy loss in the country. Therefore, to tackle this problem at early stages, the immunosensor application is a most reliable sensor nowadays because of advantages towards detecting biological molecule. Thus, in order to deal with immunosensor development, it can be done by undergoing the formation of immunosensor format on screen-printed carbon electrode (SPCE). Results can be elaborated with the potential applications to detect the viruses.
This paper describes the analysis for the determination of fixed-potential selection using chronoamperometry technique for the detection of rice tungro bacilliform virus (RTBV). RTBV is one of the viruses that cause Tungro disease in rice plantation where the epidemic has been reported since the mid-1960s. Thus immuno-biosensor developed here can replace traditional and conventional analytical systems. One of the important steps to develop immunosensor is to determine the best potential to use in this system to indicate high percentage of active area in conducting electron and it can be used as the best potential for future immunosensor development.
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