About
This one-month intensive program dives deep into the synergy between nanotechnology and optoelectronics, exploring how nanoscale materials can be engineered to affect light and its applications in various technologies. Through a combination of theoretical knowledge and hands-on laboratory experiences, participants will learn about the latest research and developments in the field. The curriculum is structured to provide a thorough understanding of both foundational concepts and cutting-edge advancements, ensuring that students are well-prepared for the demands of this rapidly evolving industry.
Aim
The aim of this program is to provide participants with a comprehensive understanding of the principles, development strategies, and applications of antimicrobial coatings, focusing on their effectiveness, safety, and potential impact on human health.
Program Objective
- Understand the fundamental principles of nanotechnology and its application in optoelectronics.
- Develop skills in synthesizing and characterizing nanomaterials for optical applications.
- Analyze the performance of optoelectronic devices at the nanoscale.
- Apply theoretical knowledge to solve practical problems in the design and fabrication of optoelectronic systems.
- Foster innovation and critical thinking in the development of new optoelectronic technologies.
Program Structure
- Introduction
- New Strategies in the Development of Antimicrobial Coatings
- Effects of Silver on Human Physiology
- Protein- and Microorganism-Repellent Coatings
- Mechanism of Antibacterial Action of Silver
- Blood Compatibility of Silver Coatings
- Project Report Submission/ Article Writing
Participant’s Eligibility
Open to students and professionals with a background in Physics, Materials Science, Electrical Engineering, or related fields.
Program Outcomes
- Mastery of nanotech applications in optoelectronics
- Proficiency in synthesizing nanomaterials
- Skill in characterizing optoelectronic properties
- Ability to design advanced optoelectronic devices
- Innovation in optical technologies