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Latest revision as of 09:43, 11 March 2010
Contents
Chemical thermodynamics
Definition of the state functions G and F
- Gibbs' free energy G and Helmholz' free energy F
- Thermodynamic identities involving dH, dF and dG
- Gibbs-Helmholz equation
Chemical potential
- Definition of the chemical potential of a pure substance from G
- Expression of dG in terms of temperature, pressure and quantity of matter
- Variation of the chemical potential of a pure substance with pressure and temperature
- Partial molar quantities
- Definition of the chemical potential of a constituant of a mixture (homogeneous or heterogeneous)
- dG = −SdT + Vdp + Σμidni
- G = Σniμi
- Gibbs-Duhem equation
- Expression of the chemical potential:
- for an ideal gas in an ideal mixture
- for a constituent of an ideal condensed mixture
- for a solute in a very dilute solution
- Activity, activity coefficient, fugacity, fugacity coefficient
Reaction quantities
- Chemical affinity of a system: definition, direction of spontaneous evolution of a system
- Definition and expression of the thermodynamic equilibrium constant K
o - Expression of the chemical affinity in terms of the equilibrium constant and the product ‘’Q’’
- Variance, factors which affect an equilibrium (p, T, xi)
- Variation of the equilibrium constant with temperature: van't Hoff's equation
- Laws of modification of equilibria: effect of temperature, pressure and the introduction of an active or inactive constituent
Phase equilibria of binary mixtures
- Liquid-vapour equilibria: isobaric and isothermal conditions, with total or zero miscibility in the liquid phase
- Solid-liquid equilibria, isobaric conditions, total miscibility in the liquid phase, total or zero miscibility in the solid phase: concept of a defined phase
- Theory of chemical moments
Organic chemistry and spectroscopy
IR and NMR spectroscopy: structure determination
- Principles of IR spectroscopy: qualitative description of normal modes of vibration
- Principles of proton NMR spectroscopy: chemical shift, spin-spin coupling, coupling constant, integration
Organometallics
Alkenes
- Simple Huckel theory: moleculer orbital of ethylene, description of conjugated systems, application to butadiene
- Hydrogenation with heterogeneous catalysis
- Epoxydation with peroxycarboxylic acids
- Hydrolysis of epoxides (acid and base)
- syn-Dihydroxylation with osmium tetroxide
- Preparation of primary alcohols by hydroboration of a terminal alkene
- Ozonolysis
- Diels-Alder reaction: mechanism, frontier orbital interactions
Aromatic hydrocarbons
- Aromaticity
- Geometric and electronic structure of benzene
- Electrophilic aromatic substitution: general mechanism, alkylation, acylation, nitration and halogenation
- Interpretation of the orientation of the substitution of anisole and nitrobenzene
- Holemann's rules
Amines
See Carboxylic acids and their derivatives
Aldehydes and ketones
- Preparation by oxidation of alcohols
- Nucleophilic additions:
- formation of acetals (with mechanism)
- reduction by sodium borohydride
- addition of Grignard reagents
- Tautomerism: keto-enol and aldo-enol equilibria
- α-Reactivity: formation of enolate anions
- Generality of the formation of carbanions α to a π-attracting group
- Reactions of enolate anions:
- aldol condensation (with mechanism)
- crotonisation (with mechanisms E1, E2 and E2cb)
- C-alkylation (with mechanism)
- α,β-conjugated carbonyls: conjugated addition, reaction with organolithiums, organ coppers and Grignard reagents
- Wittig reaction
Carboxylic acids and their derivatives
- Preparation of esters:
- from carboxylic acids and alcohols (with mechanism)
- by reaction of alcohols with acyl chlorides or acid anhydrides (with mechanism)
- Preparation of amides by reaction of amines with acyl chlorides or acid anhydrides (with mechanism)
- Saponification of esters (with mechanism)
- Hydrolysis of nitriles and amides
- Reduction of esters to primary alcohols by lithium aluminium hydride
- Syntheses with malonic esters
Materials
Structure and organisation of condensed phases
Crystal systems and cohesive forces in crystals
- Solid state: amorphous solids, crystalline solids. Model of the perfect crystal
- Elementary definitions: lattice, site, unit cell, asymmetric unit
- Crystal systems. Z, coordination, density, filling efficiency
Close-packed structures
- Hexagonal close-packed and face-centred cubic structures
- Tetrahedral and octahedral sites in a face-centred cubic structure
Principal types of crystal
Metallic crystals
- Close-packed structures (hcp, fcc) and non close-packed structures (bcc)
- Allotropy
- Macroscopic physical characteristics of the metallic bond
Ionic crystals
- Description of four structures derived from cubic systems: CsCl, NaCl, zinc blende and CaF2
- Definition of the coordinence of the anion and of the cation
- Radius rules for 1-1 cubic structures
Covalent crystals
- Diamond
- Graphite
Molecular crystals
- Ice (cubic)
Metallic materials
Some principles of the extraction of metals
- Construction and use of Ellingham diagrams: application to pyrometallurgy
- Construction and use of E-pH diagrams: application to hydrometallurgy (lixiviation, purification, cementation)
- Use of current-potential curves: application to the preparation of zinc by electrolysis
Corrosion
- Galvanisation
Organic polymers
Generalities
- Chemical structure of organic macromolecules
- Basic definitions describing these structures: repeating unit, degree of polymerisation, linear chains, branched chains
- Polymolecularity (qualitative discussion)
- Definitions: glass transition, semicrystallinity, glassy state, rubbery state
Polymerisation by steps
- Reactive groups and functionality
- General mechanism
Chain polymerisation
- Active centres
- Radical polymerisation and ionic polymerisation
- Radical polymerisation: general mechanism, rate of polymerisation, order of reaction with respect to the promotor and the monomer
- Anionic polymerisation: Monomers concerned, general mechanism, rate of polymerisation, “living” polymers
- Molecular structure of chain polymers:
- tacticity
- isomerism
- Mani differences between polymers produced by the two types of polymerisation: polymolecularity, “living” character, importance of transfer reactions
Diversity of structures
- Condensation copolymerisation
- Chain copolymerisation: statistical copolymer, block copolymer, influence of relative reactivities
- Reticulation reactions
Relationship between structure and properties
- Conformations of an isolated flexible chain in a vacuum, statistical effective radius
- Solubility and expansion
- Mechanical properties:
- thermoplastics
- thermosets
- elastomers