One millionth of a millimetre or 10-9 m is a nanometre, and study of some matter at that level is called nanotechnology.
Who knew working on small things could lead to such a big career! For the people working in the field of nanotechnology, this has proven right.
Nanotechnology engineers are working in an area where every day, something new is discovered. Be it in the field of medicine, robotics, electronics or energy production; its applications are found everywhere.
With such a range of potential discoveries and applications, nanotechnology has enormous job-prospects.
Did you know? According to research by Global Information Inc., the annual worldwide market for products incorporating nanotechnology is expected to reach the US $3.3 trillion by 2018.
According to the National Nanotechnology Infrastructure Network, the need for technology professionals working in nanotechnology will increase to 1 million employees by 2015.
I am sure that by now you are clear about one thing, that nanotechnology course is huge regarding scope and career prospects. But, are you eligible for this postgraduate course?
Are you Eligible for the M.Tech in Nanotechnology Course?
To be eligible for the M.Tech in nanotechnology, you must have a B.Tech qualification in any field or an M.Sc degree in physics, chemistry, material science, electronics, or biotechnology with good grades.
While most colleges require an aggregate of 60%, the cut-off percentage may vary college to college.
But, do you think it is enough to have a set of qualifications?
What are the mandatory skills to excel in this course?
To be a nanotechnology engineer, here are some of the necessary skills one must have.
- Ability to gauge the fundamental concepts, theories, principles, and facts related to nanoscience and apply them
- The recognition and analysis of physical, biological and chemical problems in the field of nanoscience is a must so that questions related to projects and the curriculum are understandable
- Handling the core standard tools and technologies required
- Interpretation of the data gathered by use of computer tools and relating it to theoretical study
- Application of general laboratory security so that the manipulation of instruments and chemicals are readily detectable
- Understanding the health and environmental risks of the field
- Critical thinking and the ability to communicate ideas effectively
Never short of scope
“From creating sensors in the form of a biochip to the ability to produce garments which can act as a chemical shield, from converting sunlight into usable power, to targeting a drug to a single malignant cell, possibilities are immense in this domain.”
Nanotechnology is an incredibly vibrant area with research on the growing side. With areas like nano medicines, non-invasive surgery, surgical applications, targeted surface medical applications, nanoprobes, etc. on the growing side, why not go for a degree in this field?