Students studying nanoscience and nanotechnology study ways to take advantage of the improved properties of nanoscale materials and use this knowledge to improve and innovate in a wide range of industries, such as medicine and pharmacy, food processing and industrial agriculture, energy, environmental sciences or aerospace.

As progress in nanotechnology research and development gains momentum, more and more universities are starting to offer degree programs in nanotechnology. Currently, these programs range from minor and major in the field of nanotechnology to master's programs and doctoral degrees in any number of fields related to nanotechnology.

For those students who are looking for higher education at a college or university that does not offer a degree in nanoscience, the student can choose chemistry, physics, engineering, biology, information technology or other technological fields. With the help of a college counselor or a trusted professor, students can take college-level science courses to learn a lot about nanotechnology. The further you advance in your education, the more opportunities and choices become available to you

Nanoscience is an interdisciplinary field of research that combines physics, chemistry and biochemistry, materials and the broader field of electrical engineering. Nanoscience deals with the properties of atomic and molecular assemblies, which consist of tens, hundreds or thousands of atoms in an extraordinary range of conditions and geometric applications. The Master's degree in Nanoscience consists of interdisciplinary courses that provide students with the knowledge base necessary to fully understand research and innovation in both nanoscience and nanotechnology. Throughout the Master's program, special attention is paid to commercial innovation.

Program Features

These include semiconductor electronics and optoelectronics, energy and nanomaterials, healthcare and nanomedicine. The main objectives of obtaining a master's degree in nanoscience are: to provide students with adequate knowledge of how to control the fundamental structure of matter at its nanoscale; to expand its use both for design and for the development of new products and systems potentially applicable in various fields, as well as for the development of nanotechnologies that are important for socio-economic development.

A Master's program in nanoscience can take a full-time 12 months of study or a part-time 24 months of study. This includes intensive learning experiences and applied projects. The training takes place in an intensive professional atmosphere. Throughout the Master's program, students are engaged in research in various disciplines that are related to nanoscience and nanotechnology. Career opportunities available in this field include research and development in nanotechnology, electronic engineering, medicine, pharmacy, chemistry, physics and other disciplines with aspects of nanoscience.