Concepts of Nano Chemistry, Physics & Bio
“Nanochemistry, Physics, and Biology Unveiled: Where Small Meets Mighty.”
About Program:
“Concepts of Nano Chemistry, Physics & Bio” is an interdisciplinary program that explores the fundamental principles and applications of nanoscience at the intersection of chemistry, physics, and biology.
Aim: The aim of the program “Concepts of Nano Chemistry, Physics & Bio” is to provide students with a comprehensive understanding of nanoscience principles and their applications across chemistry, physics, and biology domains, fostering interdisciplinary knowledge and skills essential for addressing contemporary challenges and driving innovation in nanotechnology.
Program Objectives:
- To introduce participants to the fundamental concepts and theories underlying nanoscience and nanotechnology.
- To explore the synthesis methods and characterization techniques used for nanomaterials in chemistry, physics, and biology contexts.
- To examine the unique physical, chemical, and biological properties exhibited by nanomaterials at the nanoscale.
- To elucidate the applications of nanoscience across various fields, including materials science, biomedicine, energy, and environmental science.
- To foster interdisciplinary thinking and problem-solving skills essential for tackling complex challenges in nanotechnology research and development.
What you will learn?
1.Physics at Nanoscale
2.Chemistry at Nanoscale
3.Approaches to nanotechnology
4.Nanobiotechnology
5.Nanotechnology in Medicine and Pharmaceuticals
6.Drug Delivery and Application
7.Project Report Submission/ Article Writing
Fee Plan
Intended For : This program is designed for scientists, researchers, students, professionals, educators, policymakers, and individuals interested in gaining expertise in nanoscience and nanotechnology.
Career Supporting Skills
Program Outcomes
- Participants will demonstrate a comprehensive understanding of the fundamental principles of nanoscience and nanotechnology.
- Participants will acquire proficiency in synthesizing, characterizing, and manipulating nanomaterials using advanced laboratory techniques.
- Participants will be able to analyze and interpret the unique physical, chemical, and biological properties of nanomaterials at the nanoscale.
- Participants will recognize and evaluate the diverse applications of nanoscience across chemistry, physics, and biology disciplines.
- Participants will develop interdisciplinary knowledge and skills necessary for contributing to innovative research and technological advancements in nanotechnology-related fields.
