Aim

This course explores the innovative process of repurposing zinc smelter waste to create valuable iron and zinc nanoparticles. The program will focus on understanding the techniques used in nanoparticle synthesis, waste management strategies, and the potential applications of these nanoparticles in various industries like medicine, environmental cleanup, and electronics. Participants will also explore how this process contributes to sustainability by transforming industrial waste into high-value products.

Program Objectives

• Learn the basics of nanoparticle synthesis and the role of nanotechnology in repurposing industrial waste.
• Understand the chemical processes involved in converting zinc smelter waste into iron and zinc nanoparticles.
• Explore the environmental benefits of recycling industrial waste into high-value materials.
• Examine the various applications of iron and zinc nanoparticles in medicine, environmental monitoring, and energy storage.
• Get hands-on experience in synthesizing nanoparticles from industrial waste and testing their properties.

Participant Eligibility

• Students and researchers in Nanotechnology, Environmental Science, Materials Science, and Chemical Engineering.
• Professionals working in the recycling industry, environmental management, and materials development.
• Anyone interested in understanding how industrial waste can be transformed into valuable nanomaterials for sustainable solutions.

Program Outcomes

• Gain expertise in nanoparticle synthesis from industrial waste and understand their applications in various industries.
• Hands-on experience in synthesizing and characterizing iron and zinc nanoparticles.
• Understand the environmental and economic benefits of repurposing zinc smelter waste into high-value materials.

Program Deliverables

• Access to e-LMS: Full access to course materials, case studies, and resources.
• Hands-on Project Work: Synthesize nanoparticles and evaluate their performance in real-world applications.
• Research Paper Publication: Opportunities to publish findings in relevant journals.
• Final Examination: Certification awarded after completing the course and final project.
• e-Certification and e-Marksheet: Digital credentials provided upon successful completion.

Future Career Prospects

• Nanotechnology Researcher (Waste-to-Resource Applications)
• Environmental Nanotechnology Specialist
• Materials Scientist (Nanoparticles)
• Sustainability Consultant (Waste Recycling)
• Chemical Process Engineer (Nanomaterials Synthesis)

Job Opportunities

• Recycling and Waste Management Companies: Companies developing nanomaterial-based solutions from industrial waste.
• Research Institutions: Focused on nanomaterials and waste repurposing technologies.
• Environmental Tech Firms: Companies working on pollution control and sustainable material development.
• Nanotechnology Startups: Firms developing iron and zinc nanoparticle applications in clean energy and healthcare.