Electrochemical Sensing of Three Molecules Simultaneously - Dharan, E.
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Electrochemical sensing has emerged as a promising analytical tool in the field of analytical chemistry, and it has revolutionized the detection and quantification of various analytes. The simultaneous detection of multiple analytes in a single sample has become an essential requirement in various fields, including environmental monitoring, biomedical applications, and food analysis. In this book Author has focused on the electrochemical sensing of three molecules simultaneously using polyaniline, molybdenum disulfide, and carbon-based materials. The work involves the fabrication of a…mehr

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Produktbeschreibung
Electrochemical sensing has emerged as a promising analytical tool in the field of analytical chemistry, and it has revolutionized the detection and quantification of various analytes. The simultaneous detection of multiple analytes in a single sample has become an essential requirement in various fields, including environmental monitoring, biomedical applications, and food analysis. In this book Author has focused on the electrochemical sensing of three molecules simultaneously using polyaniline, molybdenum disulfide, and carbon-based materials. The work involves the fabrication of a composite material consisting of polyaniline, molybdenum disulfide and carbon-based materials. This composite material exhibits excellent electrochemical properties and selective detection of three molecules, namely vanillin, theophylline and caffeine. The electrochemical sensors based on this composite material demonstrate high sensitivity, specificity and stability, which make them suitable for real-time monitoring and point-of-care testing. In this book Author uses various analytical techniques such as voltammetry, amperometry and impedance spectroscopy for the characterization of the composite material. The surface modification and functionalization of the composite material are achieved using electrodeposition techniques, which enhance the signal amplification and signal transduction of the sensors. The electroactive materials in the composite material and the transition metal dichalcogenides in the sensors impart high selectivity and specificity towards the three molecules. Overall, this book demonstrates the development and potential of electrochemical sensing using polyaniline, molybdenum disulfide and carbon-based materials for the simultaneous detection of three molecules.