Last Updated on August 12, 2023 by Oluwajuwon Alvina

Master of Science in Nanotechnology is a field of study that deals with the development and application of nanotechnology. The innovation in this field has been responsible for several breakthroughs that have bridged the gap between science fiction and reality. What is mostly unknown about nanotechnology is that it is not something entirely new as many think, but merely a logical next step after miniaturization.

If you have been browsing masters in nanotechnology for a while without a great reaction, then you’re getting one. As this website provides answers to all your questions about m.sc nanoscience and technology scope, you no longer have to take part in an inaccessible search. We are here to guide you to the answers to your questions concerning master’s in nanotechnology salary. I would recommend you save time and effort by visiting our website as soon as possible for the answer to nanotechnology degree online.

Nanotechnology, MSc by Research - Swansea University

MSc in Nanotechnology

Nanotechnology, also shortened to nanotech, is the use of matter on an atomic, molecular, and supramolecular scale for industrial purposes. The earliest, widespread description of nanotechnology referred to the particular technological goal of precisely manipulating atoms and molecules for fabrication of macroscale products, also now referred to as molecular nanotechnology.

A more generalized description of nanotechnology was subsequently established by the National Nanotechnology Initiative, which defined nanotechnology as the manipulation of matter with at least one dimension sized from 1 to 100 nanometers. This definition reflects the fact that quantum mechanical effects are important at this quantum-realm scale, and so the definition shifted from a particular technological goal to a research category inclusive of all types of research and technologies that deal with the special properties of matter which occur below the given size threshold. It is therefore common to see the plural form “nanotechnologies” as well as “nanoscale technologies” to refer to the broad range of research and applications whose common trait is size.

Scope of MSc Nanoscience and Technology

‘Nano’ means ‘billionth’ and comes from the Greek word nanos, which means ‘dwarf’. One nanometre equals one billionth meter, or about 10 times the diameter of an atom. Nanotechnology involves studying and manipulating different materials at the atomic level. This provides the opportunity to design novel materials with unique properties.

Broad interdisciplinary expertise within physics, chemistry and biology are combined at the atomic level in an advanced interfaculty engineering programme in Nanotechnology. The programme offers specially developed courses with nanotechnology being the prime focus. From the first semester, your studies will be inspired by emerging concepts and opportunities for nanomaterials and nanocomponents.

The first three years will give you a good grounding in the chemistry, physics and mathematics that is relevant to the subject. You will be introduced to nanoscale systems, the manipulation of atoms and molecules and the use of nanotools. Ethical and environmental issues relating to nanotechnology are integrated into the programme.

Nanotechnology, the application of the science of the very small, is an exciting field that is enabling solutions in alternative energy, electronic devices, medical diagnostics and therapeutics. Engineers are finding that when things are very small, interesting phenomena can occur simply due to their physical size. Examples of these effects include quantum confinement in nanoparticles, which are making electronic display screens with higher color purity as well as tumor and disease diagnostics for cancer detection; and next-generation electronic devices made from low-dimensional materials, which have electronic properties that have the promise to have higher performance than today’s silicon devices.

However, this is not the only type of nanotechnology. Engineers are also finding that when things are very small, they can be arranged into systems of remarkable spatial and functional complexity, even if their behavior is explainable by classical physics. Examples include integrated circuit design and fabrication; the highly integrated systems in today’s handheld electronics and smartphones; and applications in the most advanced digital movie theaters, where image projection is accomplished through the coordinated microelectromechanical action of the millions of tiny moving mirrors on a silicon chip.

The program of study includes a balanced course offering including interdisciplinary scientific courses and research training in the field of nanotechnology. The curriculum of courses is delivered via face-to-face instruction. The program includes 3 credit hours of independent study and 6 credit hours of thesis research under the supervision of a faculty at the NanoScience Technology Center. This training will provide students with hands-on research experiences on nanomaterial synthesis, nanostructure fabrication and characterization, and application development in their interested areas.

Course Objectives

The programme is supported on a solid foundation of courses within physics, chemistry and mathematics. These are combined with courses in electronics and materials science that are oriented towards technology to give a good grounding for further studies in nanotechnology. The programme provides the theoretical basis and knowledge of experimental methods and technological applications of nanotechnology. The social implications of nanotechnology pertaining to ethical and environmental issues are also addressed. The first two years are common for all students in the programme. In the last three years, students choose their main profile from key areas relating to research, business and industry.

You can select one of the following main profiles:

  • Bionanotechnology
  • Nanotechnology for materials, energy and the environment
  • Nanoelectronics

WHAT MAKES NANOTECHNOLOGY UNIQUE?

The Master’s in Nanotechnology is a unique programme. No other university in the Netherlands offers you the chance to study for a Master’s degree in Nanotechnology.

Like the research generally carried out in this field, our Master’s in Nanotechnology is multidisciplinary. On the one hand, it will offer you the chance to explore different research areas within the wider field of nanotechnology. On the other, you will be able to specialise in a specific research field of your choice, such as bionanotechnology and nanochemistry, nanophysics or nanosystems and -devices.

The programme has a strong focus on the fabrication (bottom-up and top-down) and characterisation of nanomaterials and on the design of nanodevices. During the programme you will be able to specialise in one of the following three profiles: 

  • Solid State Matter
  • (Bio)molecular Matter
  • Soft Matter combined with Components and Systems

You will also be able to choose from a wide range of specialized, elective courses in the fields of physics, chemistry, electrical and biomedical engineering. You will carry out your own design project at one of our renowned research groups. The programme has a strong research component. This combination will give you the perfect preparation for a career as a researcher.

Career Prospects of M.Sc. Nanotechnology

Nanotechnology is one of the most emerging branches of Science and thus, it has a wide scope. Few sectors which have wide applications of Nanotechnology are Information Technology, Pharmaceutical, electronics, optoelectronics and many more. It has wide applications in the field of Medical Science too. Apart from that, there are various research projects with which one can get associated.

Aspirants can create their career in this field with better remuneration. The research studies in this field are very good choice for those wish to pursue higher studies. The use of Nanotechnology is wide and vast such as in food science, in medical, in engineering, and many others.

Nano science and Technology is an interdisciplinary field with tremendous impact on our day to day life. It finds applications in medical sciences, biotechnology, pharmaceuticals, imaging technology, metallurgy and material science etc. Career in this emerging field has numerous promising opportunities in industries, academia, and research and development organisations.

M.Sc. Nanotechnology: Course Highlights

Course LevelPost graduate
Duration2 years (Full time)
Examination TypeSemester System
EligibilityBachelor’s degree in any specialization
Admission Process Entrance test or direct admission
Course FeeINR 13,000 to 2.5 lacs
Average Starting salaryINR 2 lacs to 6 lacs
Top Recruiting AreasAgriculture, Teaching, Medicine, Environment, Food and Beverage, Space Research, Biotechnology and others such.
Job ProfilesAdmin and Accounts Executive, Researcher, Lecturer, Professor, Project Assistant, Business Development and others such.

Eligibility for M.Sc. Nanotechnology

Candidates holding bachelor’s degree in material science, mechanical, biomedical, chemical, biotechnology, electronics and computer science or Bachelor of Science in physics, chemistry, mathematics and life sciences can apply for Master of Science in nanotechnology.

M.Sc. Nanotechnology Admission Process

Most of the universities offer admission to M.Sc. in Nanotechnology on the basis of GATE score. Those without valid GATE score can seek admission on the basis of entrance exam conducted by the concerned college/University.

Applications forms including prospectus can be collected from the official portal of the concerned University. Filled up application forms along with attested copies of mark lists must reach University office before last date. Online application submission is also possible.

m.sc nanoscience and technology scope
msc in nanotechnology
m.sc nanoscience and technology syllabus
m.sc nanoscience jobs
msc in nanoscience and technology


Comments

Leave a Reply

Your email address will not be published. Required fields are marked *