See MSc Programs in Biochemistry 2019 in Espoo in Finland
Students who want to work in the science realm may need to take a class or series of classes in the area of biochemistry. These may include macromolecules, enzyme structure and function, metabolism, biochemical reactions and genetics.
The formal higher education system of Finland is the 7-3-2-2 pattern. The university takes two years in vocational or technical education and finally two-year pre-tertiary education. Finland also has several public as well as private universities that have enabled accessibility of higher education to students.
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Graduates of the Chemistry major have a strong knowledge of fundamental chemistry optionally enhanced with chemical engineering, materials science and polymer science exp
If you are interested in energy storages, smart device or medicine, Chemistry offers you a strong scientific basis to take part in their development.
In our major, you can choose from a broad selection of advanced chemistry areas to specialize in computational chemistry, inorganic materials chemistry, electrochemistry or synthetic organic chemistry.
During your first year, you will familiarize yourself with fundamentals and practical work on these areas and after that will have a solid base to select your preferences for the remaining studies.
Depending on your own interests, you may enhance your future knowledge by combining your studies with chemical engineering, materials science or polymer technology, just as an example. Our graduates are employed as specialists in various branches of chemical and related industry or governmental offices....
The School of Chemical Technology combines natural sciences and engineering in a unique way. This allows the results of our research to be refined a long way and put into
Biomass refining constitutes the sustainable processing of biomass into a spectrum of marketable products and energy. The key technological contents of the major is treatment of biomass with tailored mechanical, chemical, biochemical and thermochemical processes leading to selective and efficient fractionation of the biomass components into functional fractions, and further refining of the fractions to fibres, polymers, chemical compounds and fuels or their reactants. The focus point of the major is the physiological function and structure of plants as well as the reactivity of the chemical components of lignocellulosic biomass in the conversion processes. Great attention is paid to process integration modelling, taking into account recycling and waste management. This includes the development of an integrated, rational and transparent evaluation framework for sustainable assessments, such as Life Cycle Assessments (LCA)....