Kitchen waste to Carbon Nanomaterials

Turning Trash into Treasure: From Kitchen Waste to Carbon Innovation

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MODE
Online/ e-LMS

TYPE
Self Paced

LEVEL
Moderate

DURATION
1 Month

About

The Kitchen Waste to Carbon Nanomaterials program is an innovative initiative aimed at transforming organic kitchen waste into valuable carbon nanomaterials. By utilizing sustainable and cost-effective methods, this program seeks to address both environmental concerns associated with waste disposal and the growing demand for nanomaterials in various industries. Through a combination of biochemical processes and nanotechnology techniques, the program aims to extract and purify carbon-rich compounds from kitchen waste, subsequently converting them into high-quality carbon nanomaterials with potential applications in energy storage, environmental remediation, and advanced materials science.

This program not only offers a sustainable solution to kitchen waste management but also presents an opportunity to produce carbon nanomaterials in an environmentally friendly manner. By repurposing organic waste streams into valuable resources, this initiative contributes to the circular economy while promoting innovation and sustainability in nanomaterial production.

Aim

This program aims to transform kitchen waste into valuable carbon nanomaterials through innovative and sustainable techniques. It focuses on the principles of circular economy, reducing waste, and creating advanced materials that are pivotal for various industries. By participating, students will gain hands-on experience and insights into green technology and materials science.

Program Objectives

Understand the conversion of organic waste to carbon-based nanomaterials.
Master the techniques of nanomaterial synthesis from non-traditional sources.
Promote sustainable and eco-friendly material production practices.
Apply learned skills in real-world environmental and material challenges.
Encourage innovation in the field of nanotechnology through practical application.

Program Structure

Common carbon nanomaterials
Carbon Nanostructures production methods from kitchen waste
Carbon nanoparticles
Carbon dots, Biochar
Metal-carbon dot conjugates
Design of lead-free batteries
All carbon batteries, Sensors, Soil conditioners
Project Report Submission/ Article Writing

Intended For

Chemistry: Fundamental knowledge of chemical processes and organic chemistry.
Environmental Science: Understanding of waste management and sustainability practices.
Material Science: Basic understanding of material properties and engineering.

Program Outcomes

Proficient in nanomaterial synthesis from waste.
Skilled in sustainable material production.
Equipped for R&D in green technologies.
Knowledgeable in environmental impact mitigation.
Ready for entrepreneurial ventures in nanotechnology.

Fee Structure

Standard Fee: INR ~~4,998~~ USD ~~110~~

Discounted Fee: INR 2499 USD 55

We are excited to announce that we now accept payments in over 20 global currencies, in addition to USD. Check out our list to see if your preferred currency is supported. Enjoy the convenience and flexibility of paying in your local currency!

List of Currencies

FOR QUERIES, FEEDBACK OR ASSISTANCE

Key Takeaways

Access to e-LMS
Real Time Project for Dissertation
Project Guidance
Paper Publication Opportunity
Self Assessment
Final Examination
e-Certification
e-Marksheet

Future Career Prospects

Research and Development Specialist in Nanomaterials
Sustainability Consultant
Waste Management Expert
Material Scientist in Nanotechnology Firms
Entrepreneur in Eco-friendly Material Production
Academic Researcher in Environmental Nanotechnolog

Job Opportunities

Graduates can pursue careers in academia, research institutes focusing on sustainable technologies, environmental agencies, nanotechnology companies, and industries like pharmaceuticals and biotechnology that utilize nanomaterials.