Course Objective:
To comprehend solids; band structure, semiconductors; electrical conductivity, and semiconductor devices such as LEDs, photodiodes, and solar cells, as well as their applications in engineering.
To examine many types of engineering materials, including electronic, electrical, and magnetic materials, as well as dielectric material properties and applications in science and engineering.
To understand the fundamental ideas of quantum mechanics that are necessary for thoughtful and addressing engineering challenges in Science and technology.
To comprehend various crystal systems, Miller indices and determine crystal structure using XRD technique.
To understand thin-film phenomena, thin-film production techniques, and applications and to expert how to create Nano materials utilizing a top-down and bottom-up approaches, as well as to explore Nano science and technology applications in engineering and medicine.
Course Objective:
To comprehend solids; band structure, semiconductors; electrical conductivity, and semiconductor devices such as LEDs, photodiodes, and solar cells, as well as their applications in engineering.
To examine many types of engineering materials, including electronic, electrical, and magnetic materials, as well as dielectric material properties and applications in science and engineering.
To understand the fundamental ideas of quantum mechanics that are necessary for thoughtful and addressing engineering challenges in Science and technology.
To comprehend various crystal systems, Miller indices and determine crystal structure using XRD technique.
To understand thin-film phenomena, thin-film production techniques, and applications and to expert how to create Nano materials utilizing a top-down and bottom-up approaches, as well as to explore Nano science and technology applications in engineering and medicine.
Course Objective:
To enable the students to understand the science of nanomaterials.
To enable students to understand the different methods of synthesis of nanomaterials.
To enable students to understand the instrumental techniques for characterization of nanomaterials
To enable students to understand properties of bulk and nanomaterials
To enable students to understand the applications of nanomaterials and associated technology in industrial sector.
Provide understanding of physical, chemical and biological principles in the multi-disciplinary field of nanoscience and nanotechnology
Develop skills on the synthesis of nanomaterials and fabrication of micro- and nano-structures
Familiarize the graduates with the advanced nanoscale characterization techniques and develop the analytical ability
Enable graduates with professional, scientific research, and computational skills for employment in industries, R & D centres and higher education
Prepare the graduates to take individual and team work responsibilities in a multidisciplinary environment