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"Advanced Lactate Diagnostics" highlights the important role of nanomaterial-derived sensing electrodes for clinical and biomedical diagnostics.
The book begins with the fundamentals of electrochemical lactate sensors and details the electrochemical cell design and fabrication of electrode materials using nanomaterials.
The sensing of emergent biomarkers including lactate is of key significance in numerous fields, encompassing the healthcare industry, the clinical medicine and diagnostics sectors, food safety, etc.
In precise, the design and development of potent lactate and sensing platforms are especially in great demand in a variety of industries, including those involved in clinical analysis, biomedicine, biological, food, cosmetics, pharmaceuticals, leather, sports, and chemical industries.
Nanomaterials are open doors in electrochemical sensors and biosensors due to their advantages of high surface-to-volume ratio, high surface reaction activity, high catalytic efficiency, and strong adsorption ability.
Thus, the main goal of the present book is to develop electrochemical sensor platforms based on transition metal-based nanostructures with high electrocatalytic activity and sensing performance towards lactate.
The book concludes by exploring future directions for research and innovation, emphasizing the importance of interdisciplinary collaboration in advancing this field.
Overall, it serves as a comprehensive resource for researchers and industrialists interested in the intersection of nanotechnology and healthcare systems.
Thank you,
Dr. Govindhan Maduraiveeran
The book begins with the fundamentals of electrochemical lactate sensors and details the electrochemical cell design and fabrication of electrode materials using nanomaterials.
The sensing of emergent biomarkers including lactate is of key significance in numerous fields, encompassing the healthcare industry, the clinical medicine and diagnostics sectors, food safety, etc.
In precise, the design and development of potent lactate and sensing platforms are especially in great demand in a variety of industries, including those involved in clinical analysis, biomedicine, biological, food, cosmetics, pharmaceuticals, leather, sports, and chemical industries.
Nanomaterials are open doors in electrochemical sensors and biosensors due to their advantages of high surface-to-volume ratio, high surface reaction activity, high catalytic efficiency, and strong adsorption ability.
Thus, the main goal of the present book is to develop electrochemical sensor platforms based on transition metal-based nanostructures with high electrocatalytic activity and sensing performance towards lactate.
The book concludes by exploring future directions for research and innovation, emphasizing the importance of interdisciplinary collaboration in advancing this field.
Overall, it serves as a comprehensive resource for researchers and industrialists interested in the intersection of nanotechnology and healthcare systems.
Thank you,
Dr. Govindhan Maduraiveeran
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