Valid from: Autumn 2018
Decided by: Mats Ohlin
Date of establishment: 2018-09-19
Division: Centre for Analysis and Synthesis (CAS)
Course type: Third-cycle course
Teaching language: English
The course aims to deepen and broaden the students knowledge of modern synthetic methods. The course will broadly cover synthetic methods with respect to their mechanisms and frontier orbital descriptions. Specifically, the course will cover oxidations and reductions, functional group interconversions, carbon-carbon bond forming reactions, fundamental transition metal catalysis, cycloadditions, rearrangements, aromatic chemistry, and vissa applications in multi-step synthesis.
Knowledge and Understanding
For a passing grade the doctoral student must
Competences and Skills
For a passing grade the doctoral student must
Judgement and Approach
For a passing grade the doctoral student must
Lectures are given on broadly selected topics in advanced organic synthesis. A mandatory seminar is associated with each lecture. Assignments for the seminars will be handed out. Individual hand in assignments may replace or compliment seminars. Each student will present a 25 minute in-depth lecture on a topic within the course. Part of the presentation assignment is to give constructive feedback on a peer presentation.
Carey, F. A. & Sunberg, R. J.: Advanced Organic Synthesis. Springer, 2007. ISBN 9780387683546.
Types of instruction: Lectures, seminars, exercises, project, self-study literature review
Examination formats: Written exam, written report, written assignments, seminars given by participants, miscellaneous.
Active participation in lectures, seminars, and exercises (passed/not passed).
Attendance on presentation assignments by other students (passed/not passed)
Grading scale: Failed, pass
Examiner:
Admission requirements: Admitted to PhD education
Assumed prior knowledge: KEMM01 or equivalent. Formative exams may be used to evaluate adequate prior knowledge.
Selection criteria: None. All students are admitted.
The course is given if the participants are at least five students
Course coordinator: Daniel Strand <daniel.strand@chem.lu.se>