Masterclass Certificate in Plasmonic Biosensors: Biomedical Applications
-- ViewingNowThe Masterclass Certificate in Plasmonic Biosensors: Biomedical Applications is a comprehensive course that provides learners with essential skills in the rapidly evolving field of plasmonic biosensors. This course covers the fundamental principles of plasmonic biosensors, their design and fabrication, and their applications in biomedicine.
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⢠Fundamentals of Plasmonic Biosensors: An introduction to plasmonic biosensors, their working principle, and basic components. This unit covers the essentials of surface plasmons, surface plasmon resonance, and nanoparticle-based biosensors.
⢠Biomedical Applications of Plasmonic Biosensors: Explores the diverse applications of plasmonic biosensors in the biomedical field, including detection of biomolecules, pathogens, and disease biomarkers. This unit also highlights the potential of plasmonic biosensors in personalized medicine, drug development, and clinical diagnostics.
⢠Sensitivity and Specificity in Plasmonic Biosensors: Focuses on the importance of sensitivity and specificity in plasmonic biosensors and how to optimize these parameters for improved detection performance. This unit also discusses the challenges and strategies for developing highly sensitive and specific biosensors.
⢠Nanomaterials in Plasmonic Biosensors: Examines the role of nanomaterials in plasmonic biosensors, including gold, silver, and magnetic nanoparticles, and their impact on the sensitivity and selectivity of biosensor detection. This unit also covers the synthesis, characterization, and functionalization of nanomaterials.
⢠Label-free and Label-based Detection in Plasmonic Biosensors: Describes the differences between label-free and label-based detection methods and their applications in plasmonic biosensors. This unit also discusses the advantages and disadvantages of each method and their suitability for specific biomedical applications.
⢠Optical Fiber-based Plasmonic Biosensors: Investigates the use of optical fibers in plasmonic biosensors, highlighting their potential for developing portable, cost-effective, and highly sensitive detection systems. This unit also covers the design, fabrication,
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