About
Quantum dots and fluorescent probes have revolutionized the field of biosensing by offering unprecedented sensitivity and specificity in detecting biological molecules. This program focuses on the principles of biosensor technology, with a particular emphasis on the use of quantum dots and fluorescent probes. Participants will explore the chemistry behind quantum dots, how they are integrated into biosensor platforms, and their applications in real-time diagnostics, medical imaging, and environmental monitoring.
Through a combination of lectures, case studies, and hands-on labs, this course will delve into the latest advancements in biosensor technology. Topics such as signal amplification, surface chemistry modifications, and real-time fluorescence detection will be covered, alongside the ethical and safety considerations of using nanomaterials in biological systems. Participants will gain practical skills in designing and implementing biosensors for various applications, preparing them for future challenges in diagnostics and environmental testing.
Aim
This program aims to provide an in-depth understanding of the design, development, and application of biosensors using quantum dots and fluorescent probes for enhanced detection sensitivity. Participants will learn how these advanced materials are used in diagnostics, environmental monitoring, and biochemical analysis.
Program Objectives
- Understand the principles behind biosensors and their applications.
- Learn the chemistry of quantum dots and fluorescent probes used in biosensor development.
- Explore the integration of quantum dots into biosensor platforms for diagnostics.
- Gain hands-on experience in designing and testing biosensors.
- Evaluate the safety, ethical, and regulatory aspects of using nanomaterials in biosensors.
Program Structure
Week 1: Introduction to Biosensors and Quantum Dots
Fundamentals of biosensors: principles and types.
Overview of quantum dot technology and its integration with biosensors.
Week 2: Fluorescent Probes and Signal Amplification
Mechanisms of fluorescent detection in biosensors.
Techniques for signal enhancement and amplification in biosensing.
Week 3: Applications in Diagnostics and Environmental Monitoring
Case studies on biosensor applications in medical diagnostics.
Examples of biosensors in environmental monitoring and pollution detection.
Week 4: Practical Workshop on Biosensor Development & Ethical and Regulatory Considerations
Hands-on training in biosensor design, fabrication, and testing.
Discussion on safety, ethical, and regulatory aspects of nanomaterials in biosensing.
Participant’s Eligibility
- Undergraduate degree in Biotechnology, Chemistry, or Nanotechnology.
- Professionals in diagnostics, environmental monitoring, or biochemical research.
- Researchers interested in nanomaterials and biosensor technologies.
Program Outcomes
- Proficiency in designing and implementing biosensors using quantum dots.
- Understanding of quantum dot chemistry and fluorescent probes for molecular detection.
- Ability to integrate quantum dots into diagnostic and environmental monitoring platforms.
- Knowledge of safety and regulatory frameworks for biosensor development.
- Hands-on skills in biosensor testing and data analysis.
Program Deliverables
- Access to e-LMS
- Real-Time Project for Dissertation
- Project Guidance
- Paper Publication Opportunity
- Self Assessment
- Final Examination
- e-Certification
- e-Marksheet
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