Electrochemical Aptamer-Based Biosensors for Disease Biomarkers

Capture the cutting edge of diagnostic science with Electrochemical Aptamer-Based Biosensors for Disease Biomarkers by Masoud Negahdary. This authoritative volume pulls you into a fast-evolving field where electrochemistry, molecular recognition, and nanotechnology converge to reshape clinical diagnostics worldwide.

Discover practical, research-driven explanations of how aptamers—synthetic nucleic acid receptors—are engineered and integrated with electrochemical platforms to detect disease biomarkers with exceptional sensitivity and selectivity. The book walks readers through electrode modification, signal transduction strategies, assay optimization, and real-world validation, making complex concepts accessible for researchers, clinicians, and advanced students.

Designed for those working in clinical laboratories, research centers, and point-of-care development across North America, Europe, and Asia-Pacific, this title bridges theory and application. You’ll find detailed discussions on nanomaterials, label-free detection methods, miniaturized sensors, and regulatory considerations that support translation from bench to bedside. Case studies and comparative analyses highlight performance metrics relevant to cancer, infectious disease, and metabolic disorder biomarker detection.

Whether you’re designing a new sensor, evaluating analytical performance, or integrating biosensors into diagnostic workflows, this book delivers actionable insights and clear methodologies. Its practical focus makes it an indispensable reference for academic labs, biotech startups, and hospital R&D teams aiming to deploy next-generation diagnostics.

Order your copy of Electrochemical Aptamer-Based Biosensors for Disease Biomarkers by Masoud Negahdary today and stay at the forefront of biosensor innovation—essential reading for anyone developing sensitive, specific, and scalable diagnostic solutions.

Note: eBooks do not include supplementary materials such as CDs, access codes, etc.