Organic Chemistry (First year Master's)

Explore the programs and courses offered by Organic Chemistry (First year Master's)

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Program Overview

The master's degree in organic chemistry is a formal academic program. This course is designed as a series of teaching units with the goal of providing students with coherent and in-depth theoretical and practical knowledge in organic chemistry (the synthesis of organic and organometallic molecules, polymers, catalysts, the chemistry of natural substances, and phytochemistry), which will lead to opportunities in the rapidly developing industrial and research sectors. This master's degree additionally covers for students the fundamental techniques for analyzing and determining the structure of organic molecules.


These modules (teaching units) are distributed over three semesters, taught over two years (first year Master's and second year Master's)


Teaching Language : Arab-French-English

Curriculum Highlights

Core Courses

The first year master's includes several fundamental modules divided into two semesters:


- Semester 1

Advanced Organic Chemistry I

Stereochemistry in organic chemistry

Spectroscopic methods in organic chemistry

Surface chemistry and catalysis

- Semester 2

Synthesis strategy

Chemistry of organometallics and transition metals

Electrochemical analysis methods

Advanced organic chemistry II



Advanced Topics

This first level includes also advanced modules dealing much more with organic chemistry under the following headings:


Advanced Organic Chemistry I

and Advanced Organic Chemistry II.


Advanced Organic Chemistry Topics is an intensive program designed to delve into the intricacies of organic chemistry beyond the basic principles. Building upon the foundation of organic chemistry, this program explores advanced topics  the use of structure and theory to study organic reaction mechanisms, including stereochemical features such as conformation and stereoelectronic effects; reaction dynamics, isotope effects, and molecular orbital theory applied to pericyclic and photochemical reactions; and special reactive intermediates such as carbenes, carbanions, and free radicals.


Students will gain an in-depth understanding of complex organic reactions and their applications in synthesis, as well as the role of catalysts and reagents.

 



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Admissions Information

This course is open to all students with a bachelor's degree (academic) in the field of :


- Chemistry

- Organic chemistry,

- Pharmaceutical chemistry.

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