In order to successfully obtain a Masters qualification, you will need to obtain a number of credits by passing individual modules. Most taught Masters will have a number of core modules which you must take and pass in order to obtain the qualification. The assessment of research Masters is almost always entirely by a single dissertation module or project.
When studying biological & life sciences, students learn different characteristics of natural science. Depending on the area of focus, students may study the human body, plant biology, or animal science in order to help with real-world problems.
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.
Master's Program in Biological & Life Sciences in Sweden
The programme 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 Master's Programme in Bioentrepreneurship is tailored for students with a background in biomedicine, pharmaceutics, biotechnology, healthcare or medicine with courses addressing the central themes of how to manage and develop life science companies. [+]
Nutritional Molecular Medicine and Bioinformatics is a two-year international Master's programme based on PBL (Problem Based Learning) and designed to offer students scientific knowledge and competences to understand the complex bidirectional [+]
The Master’s programme in Industrial and Environmental Biotechnology aims to provide a deep understanding of how to design and operate state-of-the-art life science based processes, with respect to product quality, finance and a sustainable [+]
The Erasmus Mundus Master's in Food Innovation and Product Design (EMM-FIPDes) is a two year academic programme in the field of food science and product development, operated by AgroParisTech (France), together with DIT (Ireland), UNINA (Italy), and Lund University. [+]
The European joint Master’s in Food Innovation and Product Design (FIPDes) is a two year academic programme in the field of food science and product development, operated by Université Paris Saclay and AgroParisTech (France), together with DIT (Ireland), UNINA (Italy), and Lund University. The FIPDes Master's aims to provide a European dimension in the knowledge-intensive area of food research and development and is highly relevant for both EU and third-country students who wish to be employed in the agri-food and drink sector. The programme was approved by the EU Commission in 2010 and started in 2011.Programme modules/courses Semester 1: Food Science and Technology, Sustainability, R&D Project Management. Semester 2: Culinary Innovation, Business Creation, Marketing. Specialisations: Semesters 3 & 4: Food Design and Engineering, Healthy Food Design, Food Packaging Design and Logistics, Master’s degree project.... [-]
The Master’s programme in Medical Biotechnology aims to provide a detailed understanding of the cutting-edge techniques used in molecular biology, with an emphasis on medical applications. [+]
Master in Medical BiotechnologyThe Master’s programme in Medical Biotechnology aims to provide a detailed understanding of the cutting-edge techniques used in molecular biology, with an emphasis on medical applications. The student will be provided with a comprehensive education where technology, biology and chemistry are combined, preparing them for careers in Sweden or internationally.Programme outlineThis two-year Master’s programme consists of courses based around a core of mandatory studies in biotechnology. Courses are then supplemented with those that are elective in, for instance, chemistry or other technological subjects. This cross-platform approach to education provides the student with a unique, individualised profile to their degree. Degree projectThe degree project is performed during the last semester of the programme, where the student works on a research topic related to the theoretical courses in the curriculum. The project may be carried out either in a research setting at KTH, in industry in Sweden or abroad, or in another university or research institute anywhere in the world.Career prospectsThe combination of technology, biology and chemistry taught in the Medical Biotechnology programme provides an attractive profile for a professional career in the biotechnological and pharmaceutical industry, or for further academic studies. These areas are expanding worldwide, which gives a graduate in Medical Biotechnology opportunities for a career in companies involved in the manufacturing of drugs, medical analyses and diagnostics, or further work in academic research, patent agencies, or as consultant.... [-]
The Master's programme in Molecular Science and Engineering aims to provide in-depth knowledge of molecular systems and tools for successful careers in industry, academia and society. [+]
Master in Molecular Science and EngineeringThe Master's programme in Molecular Science and Engineering aims to provide in-depth knowledge of molecular systems and tools for successful careers in industry, academia and society. The programme focuses on the molecular design, characterisation and application of molecular structures and materials, where a wide range of advanced techniques are employed. Aspects of innovation, environmental issues, ethics, safety and societal sustainability are studied, and the programme is preparative for work and research in the many different areas of chemistry and molecular sciences. Programme outlineThe two-year programme consists of choosing from an extensive selection of courses followed by a degree project. One mandatory course is included in the first year; the remaining consist of five conditionally elective courses, 20 recommended courses, and others that are freely chosen. The conditionally elective courses are regarded as particularly important, covering the whole range of molecular science and engineering, of which the student is required to choose at least three. There is considerable freedom and an opportunity to create a personalised curriculum, focusing on individual areas of interest and allowing for a degree that is both fundamentally strong and specialised.Examples of specialisations include the following profiles:... [-]
Understanding proteins is central to understanding and solving both medical and biotechnological problems on the molecular level. This programme explores the molecular structures and functional mechanisms of a large number of proteins. [+]
Understanding proteins is central to understanding and solving both medical and biotechnological problems on the molecular level. This programme explores the molecular structures and functional mechanisms of a large number of proteins.
Graduates from the programme will master methods of cloning, expression and purification of proteins, and a number of specialised techniques for analysing proteins. They will also be able to use and understand primary scientific publications, and have the ability to independently plan, carry out and critically evaluate experiments.In the first year students follow advanced courses in biochemistry, biophysics and molecular biology. In the second year, they choose one or two projects in the field of protein science, which can be carried out at the University or in a company with a relevant research profile. Participation in seminar series, carrier training and development of other general skills is also encouraged during the second year of studies.... [-]
The programme provides you with a broad and fundamental knowledge in the field of physical chemistry, with an emphasis on the fields of surface and colloid chemistry, nanochemistry, and soft condensed matter. [+]
The purpose of the programme is to give you a broad and fundamental knowledge in the field of physical chemistry, with an emphasis on the fields of surface and colloid chemistry, nanochemistry, and soft condensed matter. Students develop advanced laboratory skills, profound theoretical comprehension of fundamental mechanisms and good understanding of practical applications. Special emphasis is given to an unbroken line of understanding, from quantum mechanical description of atoms and molecules to complex supramolecular structures, as well as their industrial and biological applications.
All courses during the first year are compulsory, and provide you with a suitable base for future studies in these or related subjects, including a course in mathematical methods. In the second year you can to a large extent influence and plan your studies, with several different possibilities. It is mandatory to complete a Master´s degree project, corresponding to at least 30 ECTS credits.... [-]
This programme connects fundamental research with its applications and integrates genetics, gene technology, cell biology, molecular biology, biotechnology and bioinformatics. [+]
The Master's Programme in Molecular Biology, Molecular Genetics and Biotechnology connects fundamental research with its applications and integrates genetics, gene technology, cell biology, molecular biology, biotechnology and bioinformatics. All these disciplines have a common basis in molecular genetics, which is the discipline that explains how the information in the genes is expressed and how it can give rise to various traits of an organism. Emphasis is also placed on subjects including genetic mechanisms underlying disease, mapping, and diagnostic methods.
Special features of the programme:Courses in genetics, cell biology, molecular biology, biotechnology and medical genetics Courses contain practical training in molecular biology techniques Includes training in the innovation process, entrepreneurship, and the commercialisation of biotechnology ... [-]
This programme aims to give students of molecular biology a solid foundation for a career in medically related areas. [+]
This programme aims to give students of molecular biology a solid foundation for a career in medically related areas. These areas have played, and will continue to play, a central role in pharmaceutical and biotechnological development. The programme also deals with subjects related to obvious commercial applications such as the development of diagnostic tools, quality control, and functional foods.
Special features of the programme:Broad range of courses related to medical biology, including pharmacology, immunology, nutrition physiology, toxicology, and neurobiology Integration of theory with training of laboratory skills Insights into the drug development process, from research to clinical use Extensive training in oral and written communication provides a solid basis for the use of relevant terms and expressions within medical biology and related areas Extracurricular activities such as seminars and site visits are offered ... [-]
Acquire an advanced level of theoretical and practical knowledge and skills in various specialisations within the field of chemistry. [+]
The programme provides you with the opportunity to acquire an advanced level of theoretical and practical knowledge and skills in various specialisations within the field of chemistry.
Through a choice of advanced courses and a Master's degree project or projects, you are given the opportunity to specialise in one of chemistry’s subject areas:
analytical chemistry organic chemistry inorganic chemistry biochemistry molecular biophysics physical chemistry chemical physics theoretical chemistry
These are represented at the Faculty of Science through KILU (the Department of Chemistry at Lund University). The Master's degree project must correspond to at least 30 ECTS credits.... [-]
Biotechnology is a globally expanding area with respect to both research and production, and Lund University is among the leading universities in the world with several renowned scientists. [+]
Biotechnology is a globally expanding area with respect to both research and production. Development within this field has the potential to contribute significantly towards a more sustainable society, and has an impact on issues such as health and pharmaceuticals, food production, waste water treatment and other environmental issues, as well as the production of chemicals. Lund University is among the leading universities in the world within biotechnology, and is home to several world-renowned scientists and highly knowledgeable and dedicated teachers. We have strong links to the industry – from large multinational companies to smaller local operations borne out of research within our own departments.... [-]
Bioinformatics is a broad subject in which biology, medicine, computer science and statistics intertwine. [+]
Bioinformatics is a broad subject in which biology, medicine, computer science and statistics intertwine. The basis for bioinformatics is the massive amount of biological sequence data derived from genomic studies and structural biology and stored in large databases. Computational biology also involves mathematical modelling of biological systems.
Special features of the programme:A combination of advanced research with training of current techniques, as well as the development of novel software tools Close connections to research in an international environment Proteomics, genomics and transcriptomics data will be analysed and combined to gain a global understanding of an organism or groups of organisms. ... [-]
Plant biotechnology is becoming increasingly important as a tool to solve some of the global problems related to feed, fuel and ecosystem management in an environmentally... [+]
Master's Programme in Plant and Forest Biotechnology
Plant biotechnology is becoming increasingly important as a tool to solve some of the global problems related to feed, fuel and ecosystem management in an environmentally friendly and sustainable manner. The Master of Science Programme in Plant and Forest Biotechnology offers students a specialized competence and skills to recognize, understand and find solutions to these challenges. The programme is based upon a set of coordinated courses which together amount to 80 credits (120 ECTS credits) spread over two years. Up-to-date knowledge is provided about plant cell and molecular biology as well as plant growth and development. This is applied in the fields of plant breeding, biotechnology and functional genomics. The programme is organized by the Department of Plant Physiology (Umeå University) and the Department of Forest Genetics and Plant Physiology (Swedish University of Agricultural Sciences) which together form the Umeå Plant Science Centre (UPSC). The education is anchored around the various research topics of UPSC.... [-]