Uppsala University Chemistry

Last Updated on December 24, 2022

uppsala university chemistry
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Uppsala University Physical Chemistry

  • 120 credits
  • Uppsala
  • Campus 100%
  • Programme syllabus and outline

Application

  • OVERVIEW
  • PROGRAMME
  • CAREER
  • ADMISSIONS
  • CONTACT AND FURTHER RESOURCES

The Master’s Programme in Chemistry, specialising in Biochemistry, provides you with a firm basis in advanced biochemistry covering all major areas, especially in the field of protein structure/function, macromolecular interactions, enzymology and protein engineering. It has been developed in cooperation with world leading research groups at Uppsala University and you will have lecturers who are leading experts in enzymology, X-ray crystallography, macromolecular interactions, systems biology, and protein evolution and engineering.

WHY THIS PROGRAMME?

The Master’s Programme in Chemistry, specialising in Biochemistry, is partly taught together with the specialisation in Chemical Biology, but provides more in-depth advanced aspects of current biochemistry and associated experimental techniques. The breadth of current biochemical research allows you to perform your degree project in a dynamic and modern research environment, using state-of-the art equipment.

Your studies will combine theoretical knowledge and practical skills in biochemistry and interfacing disciplines such as biotechnology and drug design, as well as insight into computational chemistry methods and protein crystallography. It includes the physical and chemical foundations to be able to take part in the research of the complex regulation of cellular signal transduction, cross-talk between proteins and possible linkage to diseases.

The programme also prepares you to participate in the development of new solutions for sustainable production of more efficient drugs, fuels, and new materials. These are important research fields, and you will be well-equipped for either future research within academia or for research and development in industry.

During the programme you can expect to:

  • get a personal mentor who helps you prepare for your future career
  • have lecturers who are leading experts in, among other areas, enzymology, X-ray crystallography, macromolecular interactions, systems biology and protein engineering
  • be a part of a university with two Nobel prizes in chemistry.

A degree from Uppsala University will give you close connection to excellent and world leading research and you will have the opportunity to develop a personal contact network.

You will have a personal mentor who will invite you to seminars, group-meetings and other events in order to prepare you for your future career and you will meet PhD-students and post-docs who have come to Uppsala to be part of an excellent research environment to do cutting-edge research. Our research groups have a well-developed cooperation with other institutions and research agencies which is beneficial for you when choosing a project for the master thesis, and to make contacts for your future career.

To give you even further experience in working in a research group, you can also choose the course Research training which will further develop your theoretical knowledge and experimental skills.

Student profile
You are probably coming directly from your Bachelor’s degree or have had a relevant job to strengthen especially your experimental skills. In any case you have not forgotten too much of your broad chemistry base. Your university was well equipped with experimental facilities so you have good practical training working in a lab, and can select relevant methods and stay safe while doing experiments.

You have an analytical mind and are able and willing to express your thoughts in both writing and speaking. You are extremely motivated and willing to take the responsibility needed to successfully complete your studies.

A PhD education is a distinct possibility in your future so you would value coming into contact with current research and prominent researchers in the respective international field.

DEGREE

The programme leads to a Master of Science (120 credits) with Chemistry as the main field of study.

Research areas within Inorganic Chemistry

Our research is rooted in inorganic chemistry – the study and synthesis of materials. We have a wide range of research projects focused on the development of new materials with designed properties. Our materials are synthesised using high-temperature solid state, solution or vacuum based techniques. The structures developed are as powders, compacts, sponges, and films and coatings. We have also several on-going projects on additive manufacturing (AM) or 3D-printing of alloys and composite materials.  An integral part of materials research and development is materials characterisation, and within our projects we do not only use, but also develop advanced characterisation methods to investigate our materials at different length scales using, for example, x-ray and neutron diffraction, imaging electron microscopy, x-ray spectroscopy and various electrochemical techniques. This is done using both local and large-scale research infrastructure.

Our research profile is focused on two major research themes: new materials for harsh environments and materials for more sustainable energy solutions. In both these areas, control and fundamental understanding of the chemistry is of paramount importance.

NEW MATERIALS FOR HARSH ENVIRONMENTS

Many materials are used in tough and harsh environments. There is need for new materials which can withstand very corrosive environments or high temperatures without oxidation or detrimental phase transformations. In many applications materials are exposed to high loads, stresses, erosion, radiation etc which can destroy or seriously damage the material. There is also a need for new materials which exhibit functional properties also at harsh conditions. This includes, for example, sensor materials and catalysts.

Examples of on-going research projects on materials for harsh environments in the Inorganic Chemistry Programme are: 

  • Corrosion-resistant materials
  • Hard and abrasion resistant materials
  • Materials for nuclear power applications

Our research

Inorganic Chemistry Uppsala University

The change towards a more sustainable society, using renewable energy with no or a very low carbon dioxide foot-print, is a critical challenge human kind must meet. This requires not only new technical solutions, but also the development of new materials. For example, we need materials which can give better performing and longer lasting fuel cells, or improved capabilities to store energy in e.g. batteries or as hydrogen in alloys. Essential for the materials that will meet this challenge is also that they consist of abundant elements, so that the developed technology can be implemented in a large scale. Thus, replacement of critical elements, which are detrimental for the environment or too expensive for practical use, is also an essential goal of this research.

Examples of on-going research projects are: 

  • Hydrogen storage
  • New coatings for fuel cells
  • Rare-earth free magnetic materials
  • New battery materials
  • Materials for energy conversion

Our research

ADDITIVE MANUFACTURING

Additive manufacturing (AM) or 3D-printing is a rapidly growing technique to produce components for different applications. Many AM processes are very different from conventional material synthesis leading to completely new microstructures, phase compositions and properties. There is today also a strong need for design of new alloys more suitable for a printing process. AM can be used to produce components more suitable for harsh environments or for a more sustainable society. We are currently running several AM projects focused on design of new alloys and controlled microstructures.

Our research

ADVANCED MATERIALS CHARACTERISATION

A very important part in materials research is the possibility to characterise materials and determine crystal structure, chemical composition and microstructure. All our projects involve qualified materials characterisation, to gain a fundamental understanding of the structure-property-correlations. We make use of both locally available standard techniques, and more advanced methods based on neutron scattering, synchrotron radiation, or unique instrumentation.

Lund University Chemistry Faculty

Head of department
Helena Danielson 018-471 4545
Deputy head of department
Jan Kihlberg
Administrative director
Johanna Johansson 018-471 3800
Director of studies first cycle
Francoise Raffalli-Mathieu 018-471 4991
Director of studies second cycle
Francoise Raffalli-Mathieu 018-471 4991
Director of studies third cycle
Ylva Ivarsson 018-471 4038
Study counsellor
Helena Morales Johansson 018-471 3792
Course administration
Cécile Martijn
Ulrika Rydberg 018-471 3711
Financial administration
Linda Jacobsson 018-471 5215
Johanna Johansson 018-471 3800
University directory administration
Linda Jacobsson 018-471 5215
Human resource administration
Annette Berger 018-471 3817, 070-1679849
Hanna Oskarsson 018-471 3817

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