Self Paced

Kitchen Waste To Quantum Dot Synthesis

Transforming Kitchen Waste into Cutting-Edge Quantum Dots: Sustainable Synthesis for Tomorrow’s Technology

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Enroll now for early access of e-LMS

MODE
Virtual (Google Meet)
TYPE
Self Paced
LEVEL
Moderate
DURATION
1 Month

About

The Kitchen Waste to Quantum Dot Synthesis program aims to introduce participants to the innovative method of synthesizing quantum dots from kitchen waste. The program covers topics such as the principles of quantum dot synthesis, the characteristics of kitchen waste, and the process of converting kitchen waste into high-value quantum dots. Participants will learn about the latest research and techniques in the field, as well as the challenges and opportunities associated with this sustainable solution for waste management and nanotechnology.

Aim

This program aims to revolutionize the field of nanotechnology by converting everyday kitchen waste into valuable quantum dots. It seeks to promote sustainable practices in scientific research, enhance the practical skills of participants, foster innovation in waste management, and pave the way for new applications in various industries.

Program Objectives

  • Understand the fundamentals of nanotechnology, including the manipulation of matter at the nanoscale.
  • Classification of Nanomaterials: Explore the different types and classes of nanomaterials, providing a foundation for understanding the properties and applications of quantum dots.
  • Industrial Applications of Nanomaterials: Examine how nanomaterials, including quantum dots, are utilized in various industries.
  • Basics of Carbonaceous Nanomaterials: Gain knowledge about carbon-based nanomaterials, likely relevant for understanding some aspects of the synthesis process.
  • Properties of Quantum Dots: Learn about the unique properties of quantum dots, which are semiconductor nanocrystals with quantum mechanical properties.
  • Importance of Green Synthesis: Understand the significance of environmentally friendly or “green” synthesis methods, especially in the context of quantum dot synthesis using kitchen waste.
  • Different Methods of Characterization: Explore various techniques used for characterizing nanomaterials, such as quantum dots, which is crucial for assessing their structure, properties, and performance.

Program Structure

  • Introduction to Nanotechnology
  • Classification of Nanomaterials
  • Industrial applications of Nanomaterials
  • Basics of carbonaceous Nanomaterials
  • Properties of QD
  • Importance of green synthesis
  • Different methods of characterization

Participant’s Eligibility

  • Bachelor’s Degree in Chemistry: Ideal for those who have a strong foundation in chemical processes and laboratory techniques.
  • Bachelor’s Degree in Environmental Science: Suitable for individuals with knowledge of ecological systems, sustainability practices, and environmental impacts.
  • Bachelor’s Degree in Materials Science or Engineering: For those with an understanding of materials properties and applications at the nanoscale.
  • Bachelor’s Degree in Waste Management or Environmental Engineering: Perfect for professionals who specialize in waste treatment technologies and sustainable waste management solutions.

Program Outcomes

  • Gain a solid understanding of the principles and applications of nanotechnology.
  • Knowledge of Nanomaterials:
  • Acquire knowledge about different classes of nanomaterials and their properties, with a specific focus on quantum dots.
  • Awareness of Industrial Applications:
  • Recognize the industrial applications of nanomaterials, particularly quantum dots, and understand their significance in various industries.
  • Proficiency in Carbonaceous Nanomaterials:
  • Develop a foundational understanding of carbon-based nanomaterials, providing a basis for understanding synthesis methods.
  • Comprehensive Knowledge of Quantum Dot Properties:
  • Understand the unique properties of quantum dots and their potential applications in different fields.


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

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Certificate

Program Assessment

Certification to this program will be based on the evaluation of following assignment (s)/ examinations:

Exam Weightage
Mid Term Assignments 20 %
Final Online Exam 30 %
Project Report Submission (Includes Mandatory Paper Publication) 50 %

To study the printed/online course material, submit and clear, the mid term assignments, project work/research study (in completion of project work/research study, a final report must be submitted) and the online examination, you are allotted a 1-month period. You will be awarded a certificate, only after successful completion/ and clearance of all the aforesaid assignment(s) and examinations.

Program Deliverables

  • 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

  • Specialist in Nanomaterial Synthesis
  • Research and Development in Material Science
  • Product Development Engineer in Nanotechnology Firms
  • Environmental Sustainability Coordinator
  • Quality Control Analyst in Semiconductor Manufacturing
  • Consultant for Waste Management Solutions

Job Opportunities

The skills learned in this program open up opportunities in nanomaterials production companies, waste management and sustainability organizations, research institutes focusing on material science, and tech companies developing new electronic or photonic devices.

Enter the Hall of Fame!

Take your research to the next level!

Publication Opportunity
Potentially earn a place in our coveted Hall of Fame.

Centre of Excellence
Join the esteemed Centre of Excellence.

Networking and Learning
Network with industry leaders, access ongoing learning opportunities.

Hall of Fame
Get your groundbreaking work considered for publication in a prestigious Open Access Journal (worth ₹20,000/USD 1,000).

Achieve excellence and solidify your reputation among the elite!


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