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Chemistry department LESSON PLAN MASTER 1 CHEMISTRY 2015-2016 2 Summary Master 1 chemistry.................................................................................................................................. 3 SEMESTER 1 ......................................................................................................................................... 4 SEMESTER 2 ......................................................................................................................................... 9 3 Master 1 chemistry Lectures in French and english Goals Complete the general knowledge of chemistry Deepen more specific disciplines in the field of biomolecules, polymers and analysis General organization In the first semester students take a core curriculum to enable them to strengthen and deepen their knowledge. In the second half, they must choose one of three specialities : Biomolecules Polymer materials and energy Analysis Compulsory training period of 3 to 5 months, taking place in a laboratory or company, allows students to make contact with industry and research in order to choose the best orientation to a Master 2 research or professionnal. Prerequisites Students must be licensed Responsible Jacques Uziel ([email protected], 01 34 25 70 44) Secretariat Laetitia Buton ([email protected], 01 34 25 70 34) Registration form available at the office or downloadable : www.u-cergy.fr/fr/ufr-sciences-et-techniques/departement-de-chimie/formations/m1-chimie.html 4 Lessons UE Title UE1 Analyzes and separations Structures et catalysis Synthesis and properties Labs UE2 UE3 UE4 ECTS Lesson Tutorial Lab 8 35h 35h - 8 35h 35h - 8 35h 35h - 6 - - 30h 5 UE1 Analyses et séparations—Spectroscopies Enseignant : Contenu UE1 Analyzes and separations—NMR Teacher : G. DOSSEH Contents I-Reminders Structure determination by 1D NMR high resolution liquid phase II-Principles of NMR Quantum bases of NMR spectroscopy Classical approximation : vector formalism, NMR Fourier transform III-Relaxation phenomena and applications Spin-lattice relaxation and spin-spin relaxation Measurement of relaxation times Double resonance and nuclear Overhauser effect IV-Effects of molecular dynamics on the NMR spectra V-Some complex experimental method in 1D NMR Chemical shift reagent Edition spectra VI-NMR two-dimensional Spectra chemical shift correlations J-resolved UE1 Analyzes and separations—Separation methods - Chromatography Teacher : C. VANCAEYZEELE Contents I-Principles II-Qualitative and quantitative analysis III-Gas chromatography IV-Liquid chromatography V-Gas chromatography coupled with mass spectrometry UE2 Structures and catalysis—Cristallography, chemistry of solid Teacher : Contents I-Symmetry of finite figures 1) Symmetry operations a) Rotation b) Reflexion c) Inversion 6 2) Point groups a) Definitions-exemples b) Crystal systems 3) Stereographic projection II-Symmetry of infinite periodical figures 1) Translation 2) Helical axes 3) Translatory mirrors III-Determination of crystal structures 1) Definitions 2) Spacial groups 3) X-ray diffraction a) Basic concepts b) Intensity diffracted by a centrosymmetric structure c) Systematic extinctions i) Primary extinctions ii) Secondary extinctions UE2 S1 Structures and catalysis—Orbital-approche Teacher : G. SINI Contents I-Orbital-approach in chemistry Study of molecular electronic structure by means of theoretical models : Hartree-Fock method, correlation energy, configuration interaction, Koopmans’ theorem, Pauli principle, Slater determinants, H2 molecule by valence bond- and molecular orbital theories, coulomb and exchange integrals. Woodward-Hoffmann rules : cyclo-additions, electrocyclic, and sigmatropic reactions. II-Introduction to molecular modelling Introduction to ab-initio and semi-empirical methods, molecular mechanics UE2 S1 Structures et catalyse—Bioorganique Enseignant Contenu 7 UE2 Structures and catalysis—Heterogeneous catalysis Teacher : N. LINDER Contents (lectures in english) 1) Introduction to catalysis (reminders—organometallic chemistry) 2) Heterogeneous catalysts a) types b) synthesis c) characterization 3) Catalytic cycle—effects with respect to catalyst, surface and reactant a) Paul Sabatier principle b) Molecular adsorption at the surface and surface reactions 4) Catalytic processes a) Craquage b) Fischer-Tropsch c) Ziegler Natta UE3 Synthesis and properties—Macromolecular chemistry Teacher : C. PLESSE Contents I-Reminder : free radical polymerization Mechanism Rate expressions Steady-state assumption II-Emulsion polymerization Description of process Quantitative aspects Applications III-Free radical copolymerization Interest Equations of composition Instantaneous copolymer composition curves Considerations on reactivity IV-Living free-radical polymerization Stable free radical polymerization (SFRP) Atom transfert radical polymerization (ATRP) Radical addition-fragmentation transfert (RAFT) V-Industrial polymers and radical polymerization UE3 Synthesis and properties—Physico-chemistry of interfaces Teacher : O. FICHET Contents I-The gas-solid interface : Chemisorption, physisorption,adsorption isotherms of Langmuir, 8 BET, heterogeneous catalysis II-The liquid-gas interface : Surface tension, Young-Laplace’s equation, Kelvin’s equation, Dupres’s equation, Surface excess—Applications : adsorption of solutes, bubbles, drops, capillarity, contact angle, … III-The liquid-liquid interface : Micelles (thermodynamic behavior,critical micellar concentration (CMC), …), Emulsion : Hydrophilic-Lipophilic Balance (HLB), Ternary diagrams UE3 Synthèses et propriétés—Grandes méthodes de synthèse I Enseignant Contenu UE4 Tutorials—Organic chemistry and NMR Responsible : E. CHELAIN Contents 1) Synthesis of silyl ether: kinetic enolate—thermodynamic enolate 2) Synthesis of Dimedone 3) Asymmetric synthesis : Reversal of stereogenic center on the (-)-menthol 4) NMR UE4 Tutorials—Computer modelling Responsible : G. SINI Contents Activated dienophiles in Diels-Alder cycloadditions, solvent effects on tautomeric equilibria, stereochemistry of nucleophilic addition to norcamphor and camphor UE4 Tutorials—Cristallographie, UV et IR Responsable : Contenu 1) UE4 S1 Travaux pratiques—Analyse Responsable : Contenu 1) 9 Lessons UE Title ECTS Lesson Tutorials Lab UE1 Synthesis II 6 30h 30h - UE2 Practices and individual work 6 - 5h 35h UE3 English 3 - 40h - UE4 Professionnal immersion (3-5 months) 5 - - - Teaching units to choose from UE5 Teaching Analysis 10 40h 40h - or UE5 Teaching Biomolecules 10 40h 40h - or UE5 Teaching Polymer materials and energy 10 40h 40h - 10 UE1 Synthèses II—Grandes méthodes de synthèse II Enseignant : Contenu UE1 Synthèses II—Synthèse macromoléculaire Enseignant : Contenu UE1 Synthèses II—Electrochimie appliquée Enseignant : Contenu UE2 Travaux pratiques et individuels—Bibliographie Enseignant : Contenu UE2 Travaux pratiques et individuels—Travaux pratiques Analyse Responsable : Contenu UE2 Practices and individual work—Biomolecules tutorials Responsible : E. CHELAIN Contents Synthesis of chromanone 11 UE2 Practices and individual work—Lab Polymer materials and energy Responsible : C. PLESSE Contents TP 1 : Synthesis of Electroactive polymer actuator TP 2 : Emulsion polymerization TP 3 : Free-radical copolymerization TP 4 : Electropolymerization of conducting polymers TP 5 : Cationic polymerization TP 6 : Polymer analysis : Dynamic Scanning Calorimetry (DSC) and Steric Exclusion Chromatography ( SEC) TP 7 : Synthesis of Polyurethane foams UE3 Anglais Enseignant : Contenu UE4 Immersion professionnelle 3-5 mois Enseignement analyse UE5 Enseignement analyse—Chimie analytique environnementale Enseignant : Contenu UE5 Enseignement analyse—Méthodes électrochimiques Enseignant : Contenu UE5 teaching Analysis—Separation technics Enseignant : C. VANCAEYZEELE Contenu I-Ion chromatography 1) Method 12 2) Ion exchange principle 3) Ion exchanger 4) Mechanisms 5) Detection 6) Examples II-Ion pair chromatography 1) Ionisable compounds 2) Chromatographic systems 3) Mechanisms 4) Comparison with ion exchange chromatography 5) Examples UE5 Enseignement analyse—Mathématiques appliquées Enseignant : Contenu UE5 Enseignement analyse—Instrumentation analytique Enseignant : Contenu Enseignement Biomolécules UE5 Enseignement biomolécules—De l’acide aminé au peptide Enseignant : Contenu UE5 Enseignement biomolécules—Stratégie de synthèse orientée biomolécule Enseignant : Contenu 13 UE5 Teaching biomolecules—Applied Heterocyclic chemistry Teacher : J. PYTKOWICZ Contents I. Introduction 1) Definitions 2) Nomenclature 3) Generalities II. 3 or 4 membered ring Heterocycles III. 5 membered ring Heterocycles: synthesis and generalities 1) Generalities 2) Synthetic strategies 3) Hinsberg’s synthesis 4) Paal-Knorr’s synthesis 5) Furan specific syntheses 6) Pyrrole specific syntheses 7) Thiophene specific syntheses IV. 5 membered ring Heterocycles : chemical properties 1) Aromaticity 2) Heterocycle polarisation 3) NMR data V. 5 membered ring Heterocycles: pyrrole reactivity 1) Acidity/basicity 2) SEAr reactions 3) Other reactions VI. 5 membered ring Heterocycles: réactivité du furane 1) Basicity 2) SEAr reactions 3) Other reactions VII. 5 membered ring Heterocycles: réactivité du thiophène 1) Basicity 2) SEAr reactions 3) Other reactions VIII. 6 membered ring Heterocycles: chimie des pyridines 1) Generalities 2) Synthetic methodologies IX. 6 membered ring Heterocycles: réactivité des pyridines 1) SEAr reactions 2) Pyridines Nucleophilic Substitution 3) Chemistry of anions derived from pyridine 4) Pyridiniums salts alkylation : Comins reactions X. Indolic heterocycles 1) Generalities 2) Synthetic methodologies XI. Indoles Reactivity 1) SEAr reaction 2) Mannich reactions 3) Reactivity towards nucleophiles 14 UE5 Enseignement biomolécules—Synthèse asymétrique incluant celle des acides aminés Enseignant : Contenu Enseignement Matériaux polymères et énergie UE5 Enseignement matériaux polymères et énergie—Polymère en solution Enseignant : Contenu UE5 Teaching Polymer materials and energy—Polymer mechanical properties Teacher : C. VANCAEYZEELE Contents I-Notions on viscoelasticity of polymer materials II-Mechanical models III-Time-temperature superposition IV-Dynamic mechanical analysis UE5 Enseignement matériaux polymères et énergie—Sol-gel Enseignant : Contenu UE5 Enseignement matériaux polymères et énergie—Polymères conjugués Enseignant : Contenu UE5 Enseignement matériaux polymères et énergie—Conductions dans les polymères Enseignant : Contenu 15 UE5 Enseignement matériaux polymères et énergie—Mélange de polymères Enseignant : Contenu