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Industrial Program

Advanced Nanomaterials for Sustainable Energy

Powering the Future: Sustainable Solutions Through Advanced Nanomaterials

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MODE
Online/ e-LMS

TYPE
Self Paced

LEVEL
Moderate

DURATION
3 Months

About

This program delves into the scientific, technological, and practical aspects of using nanomaterials in sustainable energy applications. Participants will engage with a range of topics from the synthesis and characterization of nanomaterials to their implementation in energy storage, conversion systems, and efficiency enhancements. The program combines theoretical knowledge with practical workshops, guest lectures from industry leaders, and hands-on projects.

Aim

The aim of the “Advanced Nanomaterials for Sustainable Energy” program is to foster a deep understanding of how nanotechnology can be applied to enhance energy sustainability. It seeks to empower participants with the capabilities to pioneer advancements in energy technologies and solutions that are environmentally friendly and economically viable.

Program Objectives

To introduce the latest advancements in nanomaterials and their applications in sustainable energy.
To provide a solid theoretical foundation as well as practical skills in handling and manipulating nanomaterials.
To stimulate innovative thinking and solution-oriented approaches to real-world energy challenges.
To encourage the ethical consideration of nanotechnology’s environmental and societal impacts.

Program Structure

Month 1: Foundations and Concepts

Week 1: Introduction to Nanomaterials
Day 1-2: History and Evolution of Nanomaterials
Day 3-4: Basics of Nanoscience and Nanotechnology
Day 5: Overview of Sustainable Energy Needs and Challenges

Week 2: Nanomaterials in Energy Applications
Day 1-2: Types of Nanomaterials Used in Energy Applications (e.g., carbon nanotubes, graphene, quantum dots)
Day 3-4: Properties and Functionalities of Nanomaterials
Day 5: Lab Visit/Case Study: Realworld Applications

Week 3: Energy Conversion Technologies
Day 1-2: Photovoltaic Cells and Nanomaterials
Day 3-4: Nanoenhanced Fuel Cells
Day 5: Workshop: Designing Nanomaterialbased Solar Cells

Week 4: Energy Storage Solutions
Day 1-2: Batteries and Supercapacitors Featuring Nanomaterials
Day 3-4: Nanotechnology in Hydrogen Storage and Conversion
Day 5: Group Project Kickoff: Innovative Energy Storage Designs

Month 2: Advanced Techniques and Integration

Week 1: Synthesis and Characterization of Nanomaterials
Day 1-2: Synthesis Methods for Nanomaterials
Day 3-4: Characterization Techniques (SEM, TEM, XRD, etc.)
Day 5: Practical Session: Synthesizing a Nanomaterial

Week 2: Enhancing Energy Efficiency with Nanomaterials
Day 1-2: Thermal Management through Nanotechnology
Day 3-4: Nanoinsulation Materials and Techniques
Day 5: Workshop: Applying Nanomaterials for Improved Insulation

Week 3: System Integration and Performance Evaluation
Day 1-2: Integrating Nanomaterials into Existing Energy Systems
Day 3-4: Performance Metrics and Evaluation Standards
Day 5: Seminar: Industry Experts on Nanomaterials in Largescale Applications

Week 4: Regulatory and Environmental Considerations
Day 1-2: Health, Safety, and Environmental Impacts of Nanomaterials
Day 3-4: Compliance with Environmental Regulations
Day 5: Debate: Ethical Implications of Nanotechnology in Energy

Month 3: Future Trends and Practical Implementation

Week 1: Emerging Technologies and Innovations
Day 1-2: Latest Innovations in Nanotechnology for Energy
Day 3-4: Nanomaterials in Smart Grids and Energy Harvesting
Day 5: Guest Lecture: Future of Energy Storage

Week 2: Commercialization and Scaling Up
Day 1-2: From Lab to Market: Challenges and Strategies
Day 3-4: Business Models for Nanobased Energy Solutions
Day 5: Panel Discussion: Entrepreneurs in the Nanoenergy Sector

Week 3: Capstone Project
Day 1-5: Participants work on their group projects, applying concepts learned to develop
innovative solutions, with mentorship from faculty and industry professionals.

Week 4: Presentation and Evaluation
Day 1-3: Preparation for Final Presentations
Day 4: Capstone Project Presentations
Day 5: Program Closure and Feedback Session

Participant’s Eligibility

Researchers and professionals in the fields of materials science, chemical engineering, mechanical engineering, and environmental science.
Postgraduate students who are specializing in nanotechnology, energy systems, or related disciplines.
Industry professionals seeking to implement sustainable practices and technologies in their operations.

Program Outcomes

Participants will:

Gain an indepth understanding of various nanomaterials used in energy systems.
Develop the ability to design and implement nanotechnology solutions for improved energy efficiency and sustainability.
Acquire critical analytical and problemsolving skills applicable to the challenges in the energy sector.
Enhance their research and development capabilities in the field of nanotechnology for energy.

Fee Structure

Standard Fee: INR ~~14,998~~ USD ~~258~~

Discounted Fee: INR 7499 USD 129

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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	50 %
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

Participants can pursue various career paths, including:

Research and development roles in renewable energy firms.
Positions in governmental and nongovernmental organizations focused on energy policy and sustainable development.
Technical leadership roles in companies developing nanotechnologybased solutions for energy storage and conservation.
Academic positions in universities and research institutes focusing on sustainable technologies and nanomaterials.
Entrepreneurial opportunities in starting businesses that innovate in sustainable energy technologies.