Green Chemistry Applications in Electrochemical Sensors
- Kiran Kenchappa Somashekharappa*Kiran Kenchappa Somashekharappa*Email: [email protected]Department of Chemistry, Govt. First Grade College, Shivamogga-577201 Karnataka, IndiaMore by Kiran Kenchappa Somashekharappa
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- Ramesh Basavapattna HalappaRamesh Basavapattna HalappaDepartment of Botany, Govt. First Grade College, Shivamogga-577201 Karnataka, IndiaMore by Ramesh Basavapattna Halappa
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- Shashanka Rajendrachari *Shashanka Rajendrachari*Email: [email protected]Department of Materials and Metallurgical Engineering, Bartin University, Bartin 74100, TurkeyMore by Shashanka Rajendrachari
Abstract
Electrochemical sensors are now the focus of significant study, due to their tiny size, exhibit surprising optical characteristics, and are capable of causing quantum phenomena. This led to the creation of several chemical, physical, and biological processes for creating metallic nanomaterials. However, challenges including the use of hazardous chemicals and the high energy needs for manufacturing make it difficult for them to be widely used in physical and chemical synthesis of nanomaterials. Green synthesis is an alternate method for creating metallic nanomaterials. This “green” strategy to making biological nanoparticles is promising since it enables synthesis under aqueous settings with little energy usage and inexpensive. An overview of some of these environmentally acceptable techniques for creating biological metallic nanomaterials, and their applications as electrochemical sensors, design, performance