Online/ e-LMS
Self Paced
Moderate
1 Month
About
The Advanced Materials and Nanotechnology Program combines theoretical concepts with practical training in the design, synthesis, and characterization of materials at the nanoscale. Covering topics from nanofabrication techniques to applications in modern devices, participants will explore how nanotechnology is revolutionizing materials science and enabling next-generation solutions in multiple fields.
Aim
This program provides an in-depth understanding of advanced materials and nanotechnology, focusing on their unique properties, applications, and innovations in various industries. Participants will gain expertise in nanomaterials, material science principles, and practical applications in fields such as electronics, medicine, energy, and environmental engineering.
Program Objectives
- Understand the fundamental principles of advanced materials and nanotechnology.
- Gain skills in synthesizing and characterizing nanomaterials.
- Explore applications of nanotechnology across various sectors.
- Develop sustainable solutions using advanced materials and nanotechnology.
- Complete a capstone project demonstrating expertise in designing nanomaterial solutions.
Program Structure
Module 1: Fundamentals of Materials Science
- Overview: This module introduces material properties, classifications, and the role of materials science in engineering applications.
- Topics Covered:
- Atomic structure and bonding
- Mechanical, thermal, and electrical properties of materials
- Classifications of materials (metals, ceramics, polymers, composites)
- Project: Analyze the material properties of various metals and composites, focusing on their applications in high-stress environments.
Module 2: Nanotechnology and Nanomaterials
- Overview: Explore nanotechnology, focusing on the synthesis, characterization, and application of nanomaterials in engineering.
- Topics Covered:
- Properties of nanomaterials and nanostructures
- Nanofabrication techniques (CVD, PVD, sol-gel, etc.)
- Applications of nanomaterials in electronics, biomedicine, and energy storage
- Project: Synthesize a sample nanomaterial, characterizing its properties and evaluating its suitability for electronic applications.
Module 3: Composite Materials and Fabrication
- Overview: Learn about composite materials, their properties, and the processes used to fabricate and apply them.
- Topics Covered:
- Types of composite materials (fiber-reinforced, matrix composites)
- Fabrication techniques (lay-up, molding, resin transfer)
- Applications in aerospace, automotive, and biomedical fields
- Project: Design a composite material for a lightweight structural application, optimizing for strength and durability.
Module 4: Characterization Techniques and Material Testing
- Overview: Discover the methods used to analyze material properties and conduct testing for quality and performance.
- Topics Covered:
- Scanning electron microscopy (SEM), X-ray diffraction (XRD), and spectroscopy
- Mechanical testing (tensile, compression, hardness)
- Thermal analysis and electrical property measurement
- Project: Perform a tensile test and SEM analysis on a material sample, documenting its structural and mechanical properties.
Module 5: Capstone Project in Advanced Materials and Nanotechnology
- Overview: Apply your skills in a capstone project focused on developing or testing a new material for a specific industrial application.
- Project Options:
- Develop a nanocomposite for use in high-strength aerospace components.
- Design a thermal management solution for electronics using advanced materials.
- Create a biocompatible nanomaterial for a medical device, optimizing for safety and functionality.
- Outcome: Complete a comprehensive materials science project, demonstrating your expertise in material selection, testing, and application.
Intended For
- Materials Scientists and Engineers: Interested in advanced materials, nanotechnology, and composite materials.
- Engineering Students and Graduates: Seeking expertise in nanotechnology and material properties.
- Professionals in Aerospace, Electronics, and Biomedical Engineering: Looking to advance their skills in material science and applications for high-tech industries.
Program Outcomes
- Proficiency in nanomaterial synthesis, fabrication, and characterization.
- Practical knowledge of advanced materials applications in energy, medicine, and environmental science.
- Hands-on experience in designing nanomaterial solutions for industrial challenges.
- Understanding of the sustainability and environmental impact of nanotechnology.
Fee Structure
Standard Fee: INR 9,998 USD 298
Discounted Fee: INR 4999 USD 149
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 CurrenciesOther Options
E-LMS
Price : 2499
E-LMS + Video
Price : 6999
for company get 15% or more and get customized program
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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
- Nanotechnology Research Scientist
- Materials Engineer
- Nanomaterials Production Specialist
- Biomedical Nanotechnologist
- Renewable Energy Technologist
- Environmental Engineer specializing in Nano-remediation
Job Opportunities
- Research and development roles in nanotechnology, materials science, and high-tech manufacturing.
- Engineering firms focused on developing advanced composites and sustainable materials.
- Biomedical companies utilizing nanotechnology for diagnostics and therapeutic solutions.
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