“…As alternatives to spectroscopic techniques, electrochemical methods have been recognized as one of the most powerful tools for the determination of Hg 2+ due to their high sensitivity, short analysis duration, portability, low cost, and easy maintenance. 10–12 The discovery of nanomaterials has opened up numerous possibilities for electrochemical sensors because the selection of biomolecule immobilization matrixes and transducers is a critical step in constructing the appropriate biosensing device. 13–15 Researchers in this field are always motivated to discover novel nanomaterials that could enhance the functionality of electrochemical sensors.…”
To address the requirement of ultra-sensitive detection of trace mercury ion (II) (Hg2+) in the environmental and food industries, we had developed an electrochemical biosensor with super-sensitivity, extremely high-selectivity, and...
“…As alternatives to spectroscopic techniques, electrochemical methods have been recognized as one of the most powerful tools for the determination of Hg 2+ due to their high sensitivity, short analysis duration, portability, low cost, and easy maintenance. 10–12 The discovery of nanomaterials has opened up numerous possibilities for electrochemical sensors because the selection of biomolecule immobilization matrixes and transducers is a critical step in constructing the appropriate biosensing device. 13–15 Researchers in this field are always motivated to discover novel nanomaterials that could enhance the functionality of electrochemical sensors.…”
To address the requirement of ultra-sensitive detection of trace mercury ion (II) (Hg2+) in the environmental and food industries, we had developed an electrochemical biosensor with super-sensitivity, extremely high-selectivity, and...
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