Master's Degree in Nanotechnology in Stockholm in Sweden

Search Masters Programs in Nanotechnology 2018 in Stockholm in Sweden

Nanotechnology

A masters is the first level of graduate coursework and can be obtained after you receive a bachelor’s degree. Earning a masters usually requires two years of full-time study, which amounts to 36 to 54 semester credits.

 

Graduates of the Master in Nanotechnology degree will be able to work in different industries. This is possible due to the arising necessity of microsystems. Students will learn about the miniaturization of optical and electronic devices.

Sweden (Sverige) is the largest of the Nordic countries, with a population of about 9.5 million. It borders Norway and Finland and is connected to Denmark via the bridge of Öresund (Öresundsbron). Sweden has a strong tradition of being an open, yet discreet country.

Being the largest city in Sweden, Stockholm has over 1.3 million people in the urban area. The city comprises of several Islands and it is the capital city of Sweden. Stockholm has over 10 universities and colleges.

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Master in Nanotechnology

KTH Royal Institute of Technology
Campus Full time 2 years August 2018 Sweden Stockholm

Nanotechnology is an exciting field within science and technology related to materials and device structures with characteristic dimensions in the nanometer regime. The labor market in this emerging area is growing significantly, and nanotechnology is penetrating a number of technology sectors. [+]

Nanotechnology is an exciting field within science and technology related to materials and device structures with characteristic dimensions in the nanometer regime. The labor market in this emerging area is growing significantly, and nanotechnology is penetrating a number of technology sectors.

Nanotechnology at KTH

Based on a solid understanding of basic materials science, the program aims to establish an understanding of size-dependent materials, device and system properties, and also how these properties can be tailored by a controlled manipulation of the microstructure down to the atomic or molecular level. Furthermore, it aims to provide a good knowledge of various nano-scale devices as well as their applications and fabrication methods. Special emphasis is paid to the understanding and usage of advanced characterization methods to assess detailed materials and device properties.... [-]