Duration

2 years

Programme description

The scientific staff supervising the master's projects have specific qualifications within challenges related to synthesis, analysis, natural product chemistry, marine chemistry and petroleum chemistry. A master's programme in chemistry consists of an individual research project (master's thesis) of 60 ECTS, and courses or special topics of 60 ECTS. Some of the courses are compulsory within the specialisations. You will choose the other courses in agreement with your academic supervisor; In agreement with your academic supervisor, you will choose a master's thesis (60 ECTS) and make a progression plan containing important milestones for your project. Examples of previous master theses: "Characterization of crude oils before and after wet pyrolysis by use of NMR and standard geochemical methods", "Isolation, analysis and hemisynthesis of secondary metabolites from plants", "Anthocyanins and flavones from plants. Isolation, identification and analysis", "Ring-opening of some 1,1,2-trihalocyclopropanes, with different functional groups in 2-position, at alkaline conditions".
In your master project, you will independently use methods and scientific techniques. The most important methods being used: Gas Chromatography using Mass Spectrometry detection (GC-MS), Ultraviolet spectroscopy (UV), Infrared spectroscopy (IR), Nuclear Magnetic Resonance (NMR) spectroscopy and chemometrics.The scientific staff supervising the master's projects have specific qualifications within challenges related to synthesis, analysis, natural product chemistry, marine chemistry and petroleum chemistry. A master's programme in chemistry consists of an individual research project (master's thesis) of 60 ECTS, and courses or special topics of 60 ECTS. Some of the courses are compulsory within the specialisations. You will choose the other courses in agreement with your academic supervisor; In agreement with your academic supervisor, you will choose a master's thesis (60 ECTS) and make a progression plan containing important milestones for your project. Examples of previous master theses: "Characterization of crude oils before and after wet pyrolysis by use of NMR and standard geochemical methods", "Isolation, analysis and hemisynthesis of secondary metabolites from plants", "Anthocyanins and flavones from plants. Isolation, identification and analysis", "Ring-opening of some 1,1,2-trihalocyclopropanes, with different functional groups in 2-position, at alkaline conditions".
In your master project, you will independently use methods and scientific techniques. The most important methods being used: Gas Chromatography using Mass Spectrometry detection (GC-MS), Ultraviolet spectroscopy (UV), Infrared spectroscopy (IR), Nuclear Magnetic Resonance (NMR) spectroscopy and chemometrics.The scientific staff supervising the master's projects have specific qualifications within challenges related to synthesis, analysis, natural product chemistry, marine chemistry and petroleum chemistry. A master's programme in chemistry consists of an individual research project (master's thesis) of 60 ECTS, and courses or special topics of 60 ECTS. Some of the courses are compulsory within the specialisations. You will choose the other courses in agreement with your academic supervisor; In agreement with your academic supervisor, you will choose a master's thesis (60 ECTS) and make a progression plan containing important milestones for your project. Examples of previous master theses: "Characterization of crude oils before and after wet pyrolysis by use of NMR and standard geochemical methods", "Isolation, analysis and hemisynthesis of secondary metabolites from plants", "Anthocyanins and flavones from plants. Isolation, identification and analysis", "Ring-opening of some 1,1,2-trihalocyclopropanes, with different functional groups in 2-position, at alkaline conditions".
In your master project, you will independently use methods and scientific techniques. The most important methods being used: Gas Chromatography using Mass Spectrometry detection (GC-MS), Ultraviolet spectroscopy (UV), Infrared spectroscopy (IR), Nuclear Magnetic Resonance (NMR) spectroscopy and chemometrics.

Formal prerequisites

You will need to have a completed bachelor's degree in chemistry. You also need competence in basic general chemistry, inorganic chemistry, organic chemistry and physical chemistry corresponding to at least 60 ECTS credits (one year study). Furthermore, you need basic laboratory skills in analytical chemistry and general spectroscopy. In addition, this is required: basic theoretical knowledge and laboratory skills in chromatography are required. A transcript for the first 3 years of studies, with course descriptions, course hours per week (lab, exercises, etc.), hours of laboratory work

Language of teaching

English

Duration

2 years

Programme description

The scientific staff supervising the master's projects have specific qualifications within challenges related to chemometrical challenges related to analytical instrumentation. A master's programme in chemistry consists of an individual research project (master's thesis) of 60 ECTS, and courses or special topics of 60 ECTS. Some of the courses are compulsory within the specialisations. You will choose the other courses in agreement with your academic supervisor; In agreement with your academic supervisor, you will choose a master's thesis (60 ECTS) and make a progression plan containing important milestones for your project. Examples of previous master theses: "Use of chemometrics and spectroscopy in a crystallization process within pharmaceutical industrial production", "Control of temperature in the aluminium production". In your master project, you will independently use methods and scientific techniques. The most important methods being used: statistics, mathematics, informatics and multivariate data-analysis

Formal prerequisites

You will need to have a completed bachelor's degree in chemistry. You also need competence in basic general chemistry, inorganic chemistry, organic chemistry and physical chemistry corresponding to at least 60 ECTS credits (one year study). Furthermore, you need basic laboratory skills in analytical chemistry and general spectroscopy. A transcript for the first 3 years of studies, with course descriptions, course hours per week (lab, exercises, etc.), hours of laboratory work. English proficiency must be documented according to specified requirements.

Language of teaching

English

Duration

2 years

Programme description

The scientific staff supervising the master's projects have specific qualifications within challenges related to theoretical analysis of catalytic reactions and electron-spectroscopy. A master's programme in chemistry consists of an individual research project (master's thesis) of 60 ECTS, and courses or special topics of 60 ECTS. Some of the courses are compulsory within the specialisations. You will choose the other courses in agreement with your academic supervisor ; In agreement with your academic supervisor, you will choose a master's thesis (60 ECTS) and make a progression plan containing important milestones for your project. Examples of previous master theses: "A theoretical study of polymerization of ethylene catalyzed by chrome on silica", "A quantum-chemical examination of addition of hydrogen-fluoride to alkenes".

You will need to have a completed bachelor's degree in chemistry. You also need competence in basic general chemistry, inorganic chemistry, organic chemistry and physical chemistry corresponding to at least 60 ECTS credits (one year study). Furthermore, you need basic laboratory skills in analytical chemistry and general spectroscopy. A transcript for the first 3 years of studies, with course descriptions, course hours per week (lab, exercises, etc.), hours of laboratory work

Tuition

No tuition fees

Language of teaching

English

Duration

2 years

Programme description

The scientific staff supervising the master's projects have specific qualifications within challenges related to inorganic and metallorganic compounds, catalytic chemistry and magnetic chemistry. A master's programme in chemistry consists of an individual research project (master's thesis) of 60 ECTS, and courses or special topics of 60 ECTS. Some of the courses are compulsory within the specialisations. You will choose the other courses in agreement with your academic supervisor.; In agreement with your academic supervisor, you will choose a master's thesis (60 ECTS) and make a progression plan containing important milestones for your project. Examples of previous master theses: "Reactivity of platina-compounds", "Substitutions reactions with Pt(II) in acetone". In your master project, you will independently use methods and scientific techniques. The most important methods being used: Infrared spectroscopy (IR), Ultraviolet spectroscopy (UV), Nuclear Magnetic Resonance (NMR) spectroscopy and X-ray diffraction. The scientific staff supervising the master's projects have specific qualifications within challenges related to synthesis, analysis, natural product chemistry, marine chemistry and petroleum chemistry. A master's programme in chemistry consists of an individual research project (master's thesis) of 60 ECTS, and courses or special topics of 60 ECTS. Some of the courses are compulsory within the specialisations.

Formal prerequisites

You will need to have a completed bachelor's degree in chemistry. You also need competence in basic general chemistry, inorganic chemistry, organic chemistry and physical chemistry corresponding to at least 60 ECTS credits (one year study). Furthermore, you need basic laboratory skills in analytical chemistry and general spectroscopy. A transcript for the first 3 years of studies, with course descriptions, course hours per week (lab. exercises, etc.), hours of laboratory work.

Tuition

No tuition fees

Language of teaching

English

Duration

2 years

Programme description

Activity in theoretical chemistry is directed towards the study of molecular structure and reactions, particularly in the chemistry of the Lanthanides and Actinides, and in understanding changes in electronic structure under the influence of powerful magnetic fields. The latter is aimed at simulation of NMR spectra and also concerns the effect of molecular vibrations on response to magnetic fields. Development of new methods is also an important part of the research activity.; The program gives a detailed introduction to the use and/or development of methods for the computational modelling of chemical reactions and molecular properties. The program will in addition provide a solid background in one or more of the subjects mathematics, physics, computer science and biology. The extent to which these different subjects will be emphasized in the program will depend on the interests and background of the individual student, but the use of these methods for attacking chemical problems will always be central.

Formal prerequisites

B.Sc. or equivalent in chemistry. The applicant must document three years of coursework at university level beyond basic entrance requirements.; English language proficiency required.

Tuition

No tuition fees

Language of teaching

English

Duration

2 years

Programme description

The programme focuses on biological macromolecules and complexes or arrays of macromolecules. It deals with the conformation, shape, structure, conformational changes, dynamics, and interaction of such systems. The research part of the programme will focus on a limited number of projects:
a) Interaction between metal ions and nucleic acids,
b) Association between DNA and plant pigment,
c) Metal ion-induced transitions in polysaccharides.
The experimental work will involve several techniques, especially high-field NMR spectroscopy

Formal prerequisites

Completed undergraduate degree (B.Sc.) from an approved institution of higher education. Basic knowledge of mathematics. Competence in basic general chemistry, inorganic chemistry, organic chemistry and physical chemistry corresponding to at least 60 ECTS credits (one year study). Basic laboratory skills in analytical chemistry and general spectroscopy. A transcript for the first 3 years of studies, with course descriptions, course hours per week (lab, exercises, etc.), hours of laboratory work. English proficiency must be documented according to requirements.

Tuition

No tuition fees

Language of teaching

English