Bionanotechnology & Its Medical Applications
Nanotechnology, Biomedical, Diagnostics, Drug Delivery, Tissue Engineering, Synthesis, Characterization, Biocompatibility, Regulatory, Interdisciplinary
Nanotechnology, at its core, involves manipulating materials at the nanoscale. Synthesis and characterization techniques are fundamental, enabling the creation and understanding of nanomaterials. In diagnostics and drug delivery, nanomaterials offer enhanced sensitivity and targeted delivery, revolutionizing medical treatment. Tissue engineering benefits from nanomaterials, facilitating cell growth and regeneration. Safety assessment and regulatory considerations ensure the suitability and compliance of nanotechnology-based products. Emerging trends, interdisciplinary collaboration, and hands-on training drive innovation and application across industries.
Aim: The program aims to give a participant a thorough grasp of this amazing new application of Nanotechnology. It equips the participant to explore further and discover the power of the nano-level in offering relief to humankind from so-called incurable maladies. While the subject matter is covered in great depth, a lot of attention is paid to ensure that the participant understands the practical applications of the study material in the domain of Nano-scale Biotechnology.
Program Objectives:
- Understand nanotechnology in medical diagnostics, drug delivery, and tissue engineering.
- Gain expertise in synthesizing and characterizing nanomaterials for biomedicine.
- Master nanotechnology’s role in biomedical imaging for diagnostics.
- Learn nanomaterial applications in targeted drug delivery for therapeutics.
- Comprehend nanomaterial interactions with biological systems in tissue engineering.
- Familiarize with regulatory and ethical aspects of medical bionanotechnology.
- Develop skills to assess safety and efficacy of nanomaterial-based interventions.
- Explore emerging trends in bio nano technology R&D.
- Acquire interdisciplinary knowledge for biomedical nanotech collaboration.
- Prepare for roles in biomedical research, advancing nanomedicine.
What you will learn?
Module 1: Nanotechnology – Nano [Chemistry, Physics, Biology] Nanochemistry:
Basics of Nanochemistry
- Nanoparticles
- Carbon Nanotubes
- Nanocomposites
Nanophysics:
- Basics of Nanophysics
- Nano Electronics
- Nano Robotics
- Nano Magnetism
Nanobiology:
- Basics of Nanobiology
- Nanobiology Today
- Nanomedicine
- Biomedical Applications of Nanobiology
Module 2: Bio- Nano – Concepts & Fundamentals
- Overview of Bio-Nanotechnology
- Nature Inspired Bio Nanotechnology
- Physics of Bio- Nanotechnology
- Self Assembly Nanostructures
- Bio-Nanotechnology & Toxicology
Module 3: Bio-Nanomaterials- Concepts & Fundamentals
- Dimensions & Structures
- Classifications of Bio Nanomaterials
- Properties & Applications
- Preparation methods & Tools
- Characterization and Manipulation
- Functional Bionanomaterials
- Nanocomposite Biomaterials
Module 4: Bio-Nano Medical -Technology & Applications
- Imaging & Diagnostics
- Cancer Detection and Cure
- Drug Delivery
- Tissue Regeneration
- Disease Diagnosis and Screening
- Nanomedicines
- Microfluidics
- Nuerobioelectronics
- Bioelectronics
- Quantum Dots for Biomarkers
- Molecular Electronics
- Biosensor and Biochips
Module 5: Methods & Tools for Measuring Bio- Nano Properties
- Structure Resource
- Microscopy Resource
- Spectroscopy Resource
Module 6: Bio Nanotechnology Laboratory & Lab Procedure
- Safety practices in Bionanotechnology Resource
- 1-D systems. Functionalized nanoparticles for selective recognition of biomolecule Resource
- 2-D systems. Nanoscale model systems for targeted drug delivery Resource
- 3-D systems. Microfluidics as a platform for advanced protein separation Resource
Intended For :
Graduates, Post Graduates, Research Scholars, Academicians, Industry Professionals of Chemistry, Material Science, Biology and Biotechnology
Career Supporting Skills