Université Lyon 1
Université de Lyon
Accueil  >>  Master  >>  Chimie  >>  Synthesis, catalysis and sustainable chemistry  >>  Advanced and green methods in the chemistry of C=C bonds
  • Domaine : Masters du domaine SCIENCES, TECHNOLOGIES, SANTE
  • Diplôme : Master
  • Mention : Chimie
  • Parcours : Synthesis, catalysis and sustainable chemistry
  • Unité d'enseignement : Advanced and green methods in the chemistry of C=C bonds
Nombre de crédits de l'UE : 3
Code APOGEE : CHM2249M
UE Obligatoire pour ce parcours
UE valable pour le semestre 3 de ce parcours
    Responsabilité de l'UE :
PIVA OLIVIER
 olivier.pivauniv-lyon1.fr
04.72.44.81.36
    Type d'enseignement
Nb heures *
Cours Magistraux (CM)
18 h
Travaux Dirigés (TD)
0 h
Travaux Pratiques (TP)
0 h
Total du volume horaire
18 h

* Ces horaires sont donnés à titre indicatif.

    Conditions d'accès à l'UE :
First year graduate level courses in organic chemistry
    Programme - Contenu de l'UE :

 Course objectives: to provide an overview of advanced methods of modern synthetic chemistry, focusing here on the

chemistry of C=C Π  bonds, as well as of the current efforts at developing sustainable alternatives. Starting with some

of the classical reactions from the undergraduate program, we will provide modern variants, asymmetric versions (with

an overview of the major transition state models), “greener” methods, and examples in total synthesis.

The Diels Alder reaction

•  Advanced methods

•  Asymmetric versions (rel. diastereoselection, induction, “enantioselective” versions)

•  Sustainable methods

•  Total synthesis

[3+2] Dipolar Cycloaddition reactions

•  Advanced methods

•  Asymmetric versions

•  Sustainable methods

•  Total synthesis

The Suzuki reaction

•  idem

The Olefin Metathesis reaction

•  idem

Directed metallation reactions

•  idem

Radical cyclisation reactions

•  idem

Photochemical processes

•  Photon as a green reagent

•  Applications in natural product synthesis

    Compétences acquises :
Méthodologiques :

 Acquired Skills: a working knowledge of modern synthetic methods in the chemistry of C=C Π  bonds, a knowledge of

the major transition state models used to predict the stereochemical outcome of asymmetric reactions, and the ability

to read and understand the reactions, selectivities and specificities, and retrosynthetic strategy of the total synthesis of

a complex natural product



Techniques :
n/a
    Modalités de contrôle des connaissances et Compétences 2020-2021:
TypeLibelléNatureCoef. 
CTContrôle TerminalCT : Methods fod C=C bondsEcrit session 1 / Ecrit session 23
    Liste des autres Parcours / Spécialité / Filière / Option utilisant cette UE :
Date de la dernière mise-à-jour : 31/08/2017
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