About
The Concepts of Nano Chemistry-Physics-Bio program is an intensive one-month course that delves into the fascinating world of nanoscale science across chemistry, physics, and biology. Through a blend of theoretical knowledge and practical experiments, participants will discover how nanotechnology is revolutionizing materials science, medicine, and environmental technology. The curriculum is tailored to provide a comprehensive understanding of how atomic and molecular interactions at the nanoscale drive physical and biological processes, opening up new possibilities for technological innovation.
Aim
This program aims to provide an integrated understanding of nano chemistry, physics, and biology, highlighting their intersection and synergy. Students will explore cutting-edge applications and theories that drive advancements in nanotechnology. The program is designed to equip learners with the foundational knowledge required to innovate and excel in the nanotech industry, fostering a multidisciplinary approach to solving complex scientific problems.
Program Objectives
- To impart foundational knowledge of nano chemistry, physics, and biology.
- To explore the applications of nanotechnology in various industries.
- To enhance analytical and problem-solving skills specific to nanoscale science.
- To foster an understanding of the ethical implications and environmental impacts of nanotechnology.
- To prepare students for advanced study and careers in nanotech-related fields.
Program Structure
- Physics at Nanoscale
- Chemistry at Nanoscale
- Approaches to nanotechnology
- Nanobiotechnology
- Nanotechnology in Medicine and Pharmaceuticals
- Drug Delivery and Application
- Project Report Submission/ Article Writing
Participant’s Eligibility
- Undergraduate degree in Chemistry, Physics, Biology, or related fields.
- Professionals in pharmaceuticals, electronics, or materials science industries.
- Individuals with a keen interest in advanced material science and nano-scale technologies.
Program Outcomes
- Comprehensive understanding of nano chemistry, physics, and biology.
- Ability to apply theoretical knowledge in practical settings.
- Skills in interdisciplinary problem-solving.
- Preparation for advanced research in nanotechnology.
- Awareness of ethical and environmental considerations in nanotechnology.