Long Courses

Industry Program In Nanotechnology

Nanotechnology, Industry, Program, Innovation, Nanomaterials, Nanoelectronics, Nanomedicine, Nanobiotechnology,

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MODE
Online/ e-LMS
TYPE
Self Paced
LEVEL
Moderate
DURATION
3 months

About

  1. Advanced Equipment Operation: Hands-on training with state-of-the-art equipment used in nanotechnology research and development, providing participants with real-world skills applicable to industrial settings.
  2. Experimental Techniques: Guided experimentation sessions to reinforce understanding of nanomaterial synthesis, characterization, and manipulation techniques, fostering proficiency in key methodologies used in nanotechnology.
  3. Case Studies and Protocols: Analysis of industry-relevant case studies and best practice protocols, enabling participants to gain insights into real-world applications and industry standards in nanotechnology.
  4. Collaborative Projects: Team-based projects designed to simulate industry scenarios, encouraging collaboration, problem-solving, and innovation among participants while addressing practical challenges in nanotechnology.
  5. Expert Guidance: Access to expert mentors and facilitators who provide personalized guidance, feedback, and support throughout the workshop, ensuring participants maximize their learning outcomes.
  6. Safety Training: Comprehensive safety training covering best practices and protocols for handling nanomaterials and working in nanotechnology laboratories, prioritizing participant well-being and adherence to safety standards.
  7. Networking Opportunities: Networking sessions with industry professionals, researchers, and peers, fostering connections and collaboration opportunities within the nanotechnology community.

Aim

The innovative Industry Program in Nanotechnology aims to give participants a thorough grounding in the skills necessary for a technology-based career in nanotech-based industries.

Short Courses Objectives

  1. Comprehensive Understanding: To provide participants with a thorough understanding of the principles, theories, and applications of nanotechnology across various industries.
  2. Technical Proficiency: To equip participants with the practical skills and knowledge necessary to work with nanomaterials, nanodevices, and nanosystems in a laboratory and industrial setting.
  3. Problem-Solving Skills: To enhance participants’ ability to identify, analyze, and solve complex problems encountered in nanotechnology research and development.
  4. Interdisciplinary Collaboration: To foster collaboration and communication skills necessary for working effectively in multidisciplinary teams comprised of scientists, engineers, and industry professionals.
  5. Safety Awareness: To promote awareness of safety protocols and best practices for handling nanomaterials and working in nanotechnology laboratories.
  6. Innovation and Creativity: To encourage innovative thinking and creativity in the design and development of new nanotechnology-based solutions for real-world applications.
  7. Industry Relevance: To ensure that the course content remains up-to-date and relevant to current trends, challenges, and opportunities in the nanotechnology industry.

Short Courses Structure

  • Module 1: Profit from Nanotechnology- Applications of Nanotechnology in Various Sectors
  • Module 2: Nano Materials -Concepts & Fundamentals
  • Module 3: Nano Structures – Concepts & Fundamentals
  • Module 4: Carbon Nanotubes- Technology & Applications
  • Module 5: Nano – Synthesis & Fabrication- Concepts & Fundamentals
  • Module 6: Nano -Characterization & Manipulation Concepts & Fundamentals

Participant’s Eligibility

Graduates, Post Graduates, Research Scholars, Academicians, Industry Professionals of nanotechnology, materials science, electronics, healthcare, energy, and environmental science

Short Courses Outcomes

  • Understanding of the diverse applications of nanotechnology across sectors such as healthcare, electronics, energy, materials science, and environmental remediation.
  • Knowledge of successful case studies and real-world examples where nanotechnology has been applied to create value and drive innovation.
  • Ability to identify opportunities for leveraging nanotechnology to solve industry-specific challenges and enhance competitiveness.
  • Comprehensive understanding of nanomaterials, including nanoparticles, nanocomposites, and nanostructured materials, their properties, synthesis methods, and characterization techniques.
  • Proficiency in selecting appropriate nanomaterials for specific applications based on their unique properties and performance characteristics.
  • Skills in synthesizing and manipulating nanomaterials to achieve desired properties and functionalities for various industrial and scientific applications.
  • In-depth knowledge of nanostructures, including nanowires, nanofilms, and nanoscale devices, their fabrication methods, and their mechanical, electrical, and optical properties.
  • Understanding of the principles of self-assembly and bottom-up fabrication techniques for creating complex nanostructures with precise control over size, shape, and composition.
  • Ability to design and engineer nanostructures for specific applications, such as nanoelectronics, nanophotonics, and nanomechanical systems.


Fee Structure

Student

INR.
USD.

INR. 18749
USD. 250

INR. 31249
USD. 450

Batches

Spring
Summer

Autumn
Winter

Certificate

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