Long Courses

Industry Program In Nanotechnology

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

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Online/ e-LMS
Self Paced
3 months


  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.


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



INR. 18749
USD. 250

INR. 31249
USD. 450





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