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.
Study in molecular sciences can open up many innovative and new scientific fields to pursue, including molecular neuroscience, cytogenetics, molecular genetics, molecular basis of monogenic diseases, molecular virology and immunology, and the molecular basis of complex diseases.
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.
Request Information Master's Degrees in Molecular Sciences in Stockholm in Sweden 2019
The programme aims to provide in-depth knowledge of molecular systems and advanced tools for successful careers in industry, academia, and society. The focus is on the molecular design, characterization, and applications of molecular structures and materials, and also includes aspects of innovation, environmental issues, sustainability and safety. [+]
The programme aims to provide in-depth knowledge of molecular systems and advanced tools for successful careers in industry, academia, and society. The focus is on the molecular design, characterization, and applications of molecular structures and materials, and also includes aspects of innovation, environmental issues, sustainability and safety.Molecular Science and Engineering at KTH
The two-year master’s programme in Molecular Science and Engineering provides the students with a broad background in chemistry as well as a deeper knowledge in some chosen areas. A wide range of topics is covered, including molecular structure, synthesis of molecules, material properties, quantum chemistry, molecular reactions, and surface chemistry, and you will also become acquainted with a number of advanced analytical techniques. In addition, you will carry out project work and teamwork, as well as practising your written and oral communication. The opportunities to do coursework or to complete the degree project abroad are good, and there are a large number of foreign universities in different countries to choose between. The programme is strongly linked to the activities at the School of Chemical Science and Engineering, and especially the Department of Chemistry. Thus, you will come in direct contact with research performed at KTH. Moreover, the programme deals with real-world challenges such as considerations of energy, safety, environment, ethics, sustainability, and human rights in chemical industries, research, and society.... [-]
The program is a unique collaboration between Karolinska Institutet, KTH Royal Institute of Technology and Stockholm University, in the environment of Science for Life Laboratory, Stockholm. [+]
The program is a unique collaboration between Karolinska Institutet, KTH Royal Institute of Technology and Stockholm University, in the environment of Science for Life Laboratory, Stockholm. The students will receive a comprehensive education in life science emphasizing cutting-edge methods in the bioinformatic analysis of big data, combined with state-of-the-art techniques used in modern "high throughput" molecular biology and how to translate biological findings into diagnostic tools and novel treatments.
This two-year Master’s program is delivered by a team of teachers who are internationally recognized researchers in their respective disciplines to ensure a relevant curriculum at the research forefront. The program consists of courses aiming to give a solid education in a combination of molecular biology, biotechnology, and medicine with a focus on high-throughput biology and analysis of big data for translation of biological findings from lab bench to patient bedside. The education also aims to develop skills and abilities essential to the professional career –including oral and written presentation, team working skills, and how to make ethical and societal considerations about life science-related issues, all of which important for the ability to lead projects in academy and industry.... [-]