This program explores the fascinating world of nanotechnology, a field that manipulates matter at the atomic and molecular scale to create new materials and devices with extraordinary properties. Through a blend of theoretical knowledge and practical experiments, students will delve into the core aspects of nanotechnology and its transformative potential across industries like healthcare, electronics, energy, and materials science.
Aim
To provide a comprehensive introduction to the basic principles, applications, and implications of nanotechnology, enabling students to apply nanoscale phenomena in various scientific and engineering contexts.
Program Objectives
- To introduce the basic principles of nanoscale science and its applications.
- To demonstrate the interdisciplinary nature of nanotechnology.
- To cultivate skills in analyzing and designing nanomaterials.
- To assess the ethical, societal, and environmental impact of nanotechnological advances.
- To prepare participants for further study or career development in nanotechnology-related fields.
Program Structure
- Historical Aspects of Nanotechnology
- Nanoscience & Nanotechnology: Definitions & Components
- Modern Aspects of Nanotechnology
- How will Nanotechnology Affect us?
- Project Report Submission/ Article Writing
Participant’s Eligibility
Undergraduate degree in Physics, Chemistry, Materials Science, or related fields. Professionals in the fields of electronics, healthcare, or materials manufacturing. Individuals with a keen interest in the latest technological innovations and their applications.
Program Outcomes
- Solid understanding of nanotechnology fundamentals.
- Ability to analyze and propose nanotech solutions.
- Skills in practical nanotech applications.
- Insight into the ethical dimensions of nanotechnology.
- Preparedness for advanced studies or professional roles in nano-related fields.
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