M.tech. Nanotechnology Integrated,Highlights, Entrance Exam, admission, Eligibility, Duration, Selection Criteria, How to Apply, Application Form, Application Process, fee, Syllabus,Salary and Jobs,career opportunities
M.Tech. Nanotechnology Integrated is a postgraduate program that provides advanced knowledge in the field of nanotechnology. This program combines engineering, physics, chemistry, and biology to develop technologies that can manipulate and control matter at the nanoscale.
M.tech. Nanotechnology Integrated Highlights:
M.Tech. Nanotechnology Integrated program provides advanced knowledge in nanotechnology, materials science, and engineering.
It is a multidisciplinary program that equips students with the necessary skills to work in various industries, including healthcare, energy, electronics, and environment.
The program curriculum includes hands-on projects, internships, and research opportunities.
M.Tech. Nanotechnology Integrated graduates are in high demand in various industries, including research and development, manufacturing, and academia.
M.tech. Nanotechnology Integrated Entrance Exam and Admission:
The admission process for M.Tech. Nanotechnology Integrated program varies from institution to institution. Some universities require candidates to take an entrance exam, while others consider candidates based on their academic performance and work experience. Candidates are typically evaluated based on their academic background, statement of purpose, letters of recommendation, and performance in interviews.
M.tech. Nanotechnology Integrated Eligibility:
The eligibility criteria for M.Tech. Nanotechnology Integrated program varies from institution to institution. However, candidates typically need to have a bachelor's degree in engineering, physics, chemistry, or a related field. Some universities may also require candidates to have prior knowledge of nanotechnology or materials science.
M.tech. Nanotechnology Integrated Duration:
The duration of the M.Tech. Nanotechnology Integrated program is typically 2 years, although it can vary from institution to institution.
M.tech. Nanotechnology Integrated Selection Criteria:
The selection criteria for M.Tech. Nanotechnology Integrated program includes academic performance, statement of purpose, letters of recommendation, work experience, and performance in interviews.
M.tech. Nanotechnology Integrated How to Apply:
Candidates can apply for M.Tech. Nanotechnology Integrated program by filling out an online application form available on the website of the institution they wish to apply to. The application form typically requires candidates to provide information about their educational background, work experience, and personal details. Candidates may also need to provide transcripts, letters of recommendation, a statement of purpose, and other documents as required by the institution.
M.tech. Nanotechnology Integrated Application Process and Fee:
The application process and fee vary from institution to institution. Candidates should check the website of the institution they wish to apply to for details on the application process and fee.
M.tech. Nanotechnology Integrated Syllabus:
The syllabus for M.Tech. Nanotechnology Integrated program typically includes courses in nanoscience and nanotechnology, materials science, micro and nanofabrication, quantum mechanics, and solid-state physics. Some universities may also offer electives that allow students to specialize in a particular area of nanotechnology.
M.tech. Nanotechnology Integrated Salary and Jobs:
M.Tech. Nanotechnology Integrated graduates can work in various industries, including healthcare, energy, electronics, and environment. The salary for M.Tech. Nanotechnology Integrated graduates varies depending on their job role and the industry they work in. According to Payscale, the average salary for a nanotechnologist is around $87,000 per year in the United States.
M.tech. Nanotechnology Integrated Career Opportunities:
M.Tech. Nanotechnology Integrated graduates can work in various roles, including research and development engineer, manufacturing engineer, process engineer, product development engineer, and quality control engineer. They can work in various industries, including healthcare, energy, electronics, and environment. Some popular employers for M.Tech. Nanotechnology Integrated graduates include Intel, IBM, GE, and Siemens. M.Tech. Nanotechnology Integrated graduates can also pursue a career in academia by pursuing a Ph.D. in a related field.
M.TECH. NANOTECHNOLOGY INTEGRATED is a master level course. It is manipulation of matter on an molecular, atomic, and supramolecular scale. The course take around 2-year (4-semester). The course introduce to candidates impacts and challenges in the rapidly changing nanotechnology field. It is provide on basis time by various institute. It offer the study related to this course syllabus. The main aim of this course is the technologies includes in the miniaturization of electronic and optical devices.
Employment Zone:
Job Scopes:
NOTE:- Every college issues a list of documents required. Make sure you have all documents on this list when you apply. Remember to take attested photocopies of all the above. Don't forget to take with you the amount to pay for fees in cash or demand draft.
Given below are few of the important highlights of the program.
Program Full Name | Master of Technology in Nanotechnology Integrated |
Program Level | Master Degree Courses |
Duration of the Program | 5 Years |
Examination Type | Year |
Eligibility | 10+2 with PCM or PCB with minimum 50% marks from any recognized board |
Admission Process | Entrance Exam and Merit Based |
Average Program Fee | Rs. 2 Lakh - Rs. 3 Lakh |
Syllabus of Management as prescribed by various Universities and Colleges.
Paper Code | Subjects of Study |
1 | Fundamentals of Nanotechnology |
2 | Nano-sciences |
3 | Nanostructures & Nano-characterization Techniques |
4 | Semiconductor Device Theory and Modeling |
5 | Basic concepts |
6 | Study of objects, phenomena, etc., on the nanometer scale |
7 | Concepts and applications |
8 | Concepts and application |
9 | Nano-materials |
10 | Nano-processing and Fabrication |
11 | Computational Methods |
12 | Nano-electronics |
13 | Study of properties of nano-materials |
14 | Study of fabrication and processing methods |
15 | Concepts and application II |
16 | MEMS & NEMS |
17 | Nano-environment & Ethical Issues |
18 | Microelectronics and Nanoelectronincs |
19 | concepts |
20 | Dissertation |
21 | Evaluation |
Mentioned below are some states in India that offer the program.