Organic Chemistry

Duration

21h Th, 27h Pr

Number of credits

Lecturer

Marie-Laure Fauconnier

Language(s) of instruction

French language

Organisation and examination

Teaching in the first semester, review in January

Units courses prerequisite and corequisite

Prerequisite or corequisite units are presented within each program

Learning unit contents

Course outline:
Chapter 1 - Introduction Chapter 2 - Reviews: molecular electronic structure Chapter 3 - Nomenclature Chapter 4 - Conformational isomers , stereoisomers Chapter 5 - Alkenes Chapter 6 - Alkanes Chapter 7 - Mass Spectrometry Chapter 8 - Alkyl halides Chapter 9 - Alcohols Chapter 10 - Delocalized electrons and UV -Vis spectrometry Chapter 11 - Carbonyls Chapter 12 - Infrared spectrometry Chapter 13 - Aromatics Chapter 14 - NMR

Learning outcomes of the learning unit

At the end of the course, the students will be able to:
-          Understand the basic nomenclature used in organic chemistry
-          Distinguish and characterize different types of isomerism and to apply these concepts in the context of chemical reactions
-          Know the main basic mechanisms of organic chemistry (additions, substitutions, eliminations)
-          Interpret the reaction mechanisms of the main functions and the parameters influencing them
-          Understand the principles of spectroscopic methods and potential applications of these for bioengineers
-          Apply the above concepts to solve simple problems of synthesis or retrosynthetic analysis
-          Gain practical experience basis through the realization of the laboratory manipulations of Organic Chemistry

Prerequisite knowledge and skills

General Chemistry - Bachelor in bioengineering, 1st year (CHIM9268 -1), particularly the section on the atomistic and concepts related to chemical bonds.

Planned learning activities and teaching methods

- Lectures
- Seminar and conferences
- Exercises sessions in classroom
- Practical work in the laboratory

Mode of delivery (face-to-face ; distance-learning)

Lectures, exercises and practical work in the laboratory sessions: face-to-face
- Lectures: 21 hours (including exercises, seminars and conferences) - Practical work (exercises): 15 h - Practical work (laboratory) 12 h

Recommended or required readings

Theoretical course notes available on eCampus Exercises notes available on eCampus Practical work (laboratory) notes available on eCampus Reference Manual: " Organic Chemistry " P. Bruice, 2nd Edition, Pearson Further Reading: " Organic chemistry: the principles " J. Mc Murry and E. Simanek (Dunod) "Treaty of Organic Chemistry «, P. Vollhardt and N. Schore, de Boeck " General Chemistry " J. Hill, A. Petrucci, T. McCreary, S. Perry, Prentice Hall

Assessment methods and criteria

Theoretical part: written or oral exam Practical part (exercises): written exam Practical part (laboratory) grades including the entrance test and the laboratory report.
Attendance at labs is mandatory. If unexcused absences, participation in exams will be denied to the student.
New-coming students: Theory (45 %), practical exercises (35 %), laboratory practice (20 %) Repeater students: Theory (60 %), practical exercises (40 %)

Work placement(s)

Organizational remarks

Supervising Team:
Manon Genva, assistante

Danny Trisman, technician


Franck Michels, technician

Contacts

Prof. Marie-Laure Fauconnier
marie-laure.fauconnier@ulg.ac.be