Nano Science

Overview

Studying nano science offers a fascinating exploration of the world at the nano scale, where materials and phenomena exhibit unique properties and behaviours. This interdisciplinary field combines principles from physics, chemistry, biology, and engineering to understand and manipulate matter at the nano scale. Students delve into topics such as nano materials, nanotechnology, nano biology, and nano electronics. They gain hands-on experience with cutting-edge tools and techniques used in nano science research. Studying nano science equips graduates with a deep understanding of nano scale phenomena, enabling them to contribute to advancements in various fields such as electronics, medicine, energy, and materials science. It opens up opportunities for research careers, technological innovations, and addressing global challenges through nano scale discoveries and applications. 

Objectives Of The Programme

  1. Understand the fundamental principles and phenomena governing materials and systems at the nano scale.
  2. Explore the synthesis and characterization of nano materials with tailored properties for specific applications.
  3. Investigate nano scale devices and technologies for advancements in electronics, photonics, and energy storage.
  4. Study the interaction of nanoparticles with biological systems for applications in medicine and healthcare.
  5. Contribute to the development of sustainable and environmentally friendly nano materials and nanotechnologies.

 Programme Outcomes

  1. Proficiency in understanding and analyzing nano scale phenomena and properties of materials.
  2. Knowledge of various synthesis and fabrication techniques for nano materials and nanostructures.
  3. Ability to design and characterize nano scale devices and systems for diverse applications.
  4. Understanding of nano materials’ behaviour and their applications in energy conversion and storage.
  5. Competence in applying nano science principles to develop advanced sensors and diagnostic tools.
  6. Skill in utilizing nanotechnology for targeted drug delivery and nano medicine applications.
  7. Awareness of ethical and safety considerations related to working with nano materials.
  8. Capability to conduct research and contribute to scientific advancements in the field of nano science.
  9. Proficiency in utilizing advanced instrumentation and characterization techniques for nanomaterial analysis.
  10. Preparedness for careers in academia, research institutions, industry, and government agencies in the field of nano science.

DEGREE

BSc

Overview

Studying B.Sc in Nano Science involves exploring the fascinating world of nanotechnology, where materials and systems are manipulated at the nano scale level. This interdisciplinary field combines principles from physics, chemistry, biology, and engineering to understand and control matter at the atomic and molecular level. Students delve into topics such as nano materials, nano electronics, nano medicine, and nanofabrication techniques. They gain practical skills in nano scale characterization and manipulation techniques. B.Sc in Nano Science prepares graduates for careers in research and development, nanomaterial synthesis, nanotechnology product development, and academic positions. It offers opportunities to contribute to advancements in various industries, including electronics, healthcare, energy, and materials science.

M.Sc.

Overview

Studying Master of Science (MSc) in Nano science provides an in-depth understanding of the principles and applications of nanotechnology. This program focuses on exploring materials and phenomena at the nano scale, encompassing areas such as nano materials synthesis, nanod evices, nano biotechnology, and nano electronics. Students delve into advanced topics through a combination of theoretical knowledge and practical hands-on experience. They gain expertise in utilizing cutting-edge techniques and tools for nano scale characterization and manipulation. Studying MSc in Nano science equips graduates with the skills to contribute to ground breaking research, technological innovations, and advancements in diverse fields such as electronics, healthcare, energy, and materials science. It prepares them for careers in academia, research institutions, industry R&D, and government agencies, where they can drive forward the field of nano science through their knowledge and expertise.

CAREER

Academic & Job Prospects in Nano Science

  1. Professor/Researcher: Pursue a career in academia, conducting research and teaching nano science at universities or research institutions.
  2. Nano science Research Scientist: Work in research laboratories, exploring new phenomena and developing innovative nano materials or technologies.
  3. Postdoctoral Research Fellow: Gain further research experience by working with established scientists and contributing to cutting-edge nano science projects.
  4. Nano science Lab Manager: Manage and oversee the operations of a nano science laboratory, ensuring efficient functioning and facilitating research.
  5. Nano science Curriculum Developer: Contribute to the development of nano science curricula and educational materials for universities or educational institutions.
  6. Nano materials Engineer: Develop and optimize nano materials for various industrial applications, such as electronics, energy, or healthcare.
  7. Nanotechnology Product Developer: Contribute to the design and development of nanotechnology-based products and devices.
  8. Nanofabrication Specialist: Work in industries specializing in nanofabrication techniques, such as semiconductor manufacturing or microelectronics.
  9. Quality Control Analyst: Ensure the quality and performance of nano scale materials or products through rigorous testing and analysis.
  10. Nanotechnology Consultant: Provide expertise and guidance to companies seeking to integrate nanotechnology into their products or processes. 

Some of the main industries offering employment opportunities after studying Nano Science are listed under:

  1. Electronics Industry
  2. Pharmaceutical and Healthcare Industry
  3. Energy and Renewable Energy Sector
  4. Materials Science and Engineering
  5. Aerospace and Defence Industry
  6. Biotechnology and Biomedical Industry
  7. Nanotechnology Research and Development
  8. Nano materials Manufacturing Industry
  9. Environmental Science and Technology
  10. Semiconductor Industry
Skilled & Qualified

Faculty