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Cache Pollution (1)
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Cactus, Tannery wastewater, Total Chromium, Adsorption (1)
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calcium, endothelium, MAP kinase, nitric oxide, phospholipase A # . (1)
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Capacitance biosensorsCapacitance Measuring circuit,E.coliConcentrationWater contamination,Bacteria detection1. IntroductionWith the increase in antibiotic resistance, pathogenic bacteria remain a significant and ongoing threat to public health. Consequently, there is a growing need for the development of rapid, real-time, point-of-care sensors to detect and monitor these infectious agents, given their widespread presence.One of the pathogens requiring monitoring is the Escherichia coli(E. coli) bacteria. The presence of these bacteria in water is associated with fatalities and serves as an indicator of the proliferation of other pathogens (Quirozet al.,2018). Many conventional techniques and methods are used to detect E.coli. Such techniques are sample culture(Lazcka et al.,2007), Polymerase Chain Reaction Methods (Toze., 1999), Immunology-Based Methods (Haglundet al.,1964). Most of the conventional methods of bacterial detection and identification have enabled the monitoring of real-world samples. These techniques are all limited by the time required and the necessary instrumentation, which can be costly and highly specialized, and the facilities and personnel required to complete these assays.Impedance-based techniques are some of the most reliable and reproducible characterization methods for electrical systems, (1)
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