Objectives of Programme's Learning Outcomes

• In the field of chemistry, possess highly specialised and integrated knowledge and a wide range of skills adding to those covered in the Bachelor's programme in chemistry.
• Help lead and complete a major development project, individually or in teams, related to chemistry.
• Mobilise, articulate and promote the knowledge and skills acquired.
• Assess the degree of complexity of the project and take into account the objectives, allocated resources and constraints that characterise it.
• Demonstrate independence and their ability to work alone or in teams.
• Manage research, development and innovation within chemistry and/or its applications.
• Understand unprecedented problems in chemistry.
• Mobilise their knowledge effectively, identify their limits, conduct methodical research and critically analyse scientifically valid information.
• Possibly propose innovative solutions to targeted problems, which also requires attentiveness and mutual respect, as well as argue and establish constructive debates.
• Communicate clearly in the scientific domain.
• Communicate, both orally and in writing, their findings, original proposals, knowledge and underlying principles, in a clear, structured and justified manner.
• Where possible, communicate in English.
• Develop and integrate a high degree of autonomy.
• Pursue their education and gain additional knowledge and new skills.
• Adapt and evolve in a new context.
• Apply high quality scientific methodology.
• Critically reflect on the impact of chemistry in general and projects to which they particularly contribute.
• Demonstrate thoroughness, independence, creativity, intellectual honesty, and ethical values.
• Have acquired professional skills in relation to the objective defining the degree.
• Learn about scientific research and the world of research.
• Integrate into an inter-university environment and conduct scientific collaborations.
• Help lead and complete a major development project, individually or in teams, related to chemistry.
• Mobilise, articulate and promote the knowledge and skills acquired.
• Assess the degree of complexity of the project and take into account the objectives, allocated resources and constraints that characterise it.
• Demonstrate independence and their ability to work alone or in teams.
• Manage research, development and innovation within chemistry and/or its applications.
• Understand unprecedented problems in chemistry.
• Mobilise their knowledge effectively, identify their limits, conduct methodical research and critically analyse scientifically valid information.
• Possibly propose innovative solutions to targeted problems, which also requires attentiveness and mutual respect, as well as argue and establish constructive debates.

Learning Outcomes of UE

The student will be able to: - Understand and describe using the adapted nomenclature the different interactions that may exist between matter and the electromagnetic radiation. - Interpreting the results of the interaction between matter and the electromagnetic radiation to deduce information about the atomic and molecular structure, the electronic structure and / or to evaluate the relative concentration of the material .

Content of UE

• Quantum mechanics basics • Interaction of electromagnetic radiation with matter • Electron spectroscopy of diatomic molecules and polyatomic • Electron Spectroscopy of Nanostructures • Synchrotron radiation basics • Spectroscopic methods ( photoelectron spectroscopy, Auger spectroscopy, X-ray absorption ( XANES / EXAFS ) and energy loss spectroscopy ( EELS)

Prior Experience

Quantum Chemistry and Experimental Physical Chemistry

Type of Assessment for UE in Q1

• N/A

Q1 UE Assessment Comments

Not applicable

Type of Assessment for UE in Q2

• Oral Examination

Q2 UE Assessment Comments

Written essay followed by a discussion . 85% of the grade is assigned to the theoretical exam, 15% practical work.

Type of Assessment for UE in Q3

• Oral examination

Q3 UE Assessment Comments

Written essay followed by a discussion . 85% of the grade is assigned to the theoretical exam, 15% practical work.

Type of Resit Assessment for UE in Q1 (BAB1)

• N/A

Q1 UE Resit Assessment Comments (BAB1)

Not applicable