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Università degli Studi di Parma Università degli Studi di Parma
Second cycle degree course in
Industrial chemistry
Università degli Studi di Parma
Department of Chemistry, Life Sciences and Environmental Sustainability

REACTION MECHANISMS IN ORGANIC CHEMISTRY
cod. 00330

Academic year 2009/10
1° year of course - First semester
Professor
Academic discipline
Chimica organica (CHIM/06)
Field
Discipline chimiche
Type of training activity
Characterising
48 hours
of face-to-face activities
6 credits
hub:
course unit
in - - -
lectures timetable unavailable
exam calls
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Learning objectives

The objective of the course is to give the tools for the comprehension and the discussion of the reaction mechanisms in organic chemistry

Prerequisites

Knowledge of the arguments developed in the Organic Chemistry 1 and Organic Chemistry 2 courses

Course unit content

Program<br />
<br />
Summary of the principal kinetic equations<br />
Stoichiometry and reaction order. Reversible and consecutive reactions. Stationary State Approximation. Saturation kinetics. Parallel reactions. Primary and secondary isotopic kinetic effects.<br />
<br />
Structural effects on the reactivity of organic compounds. <br />
The Hammett equation and his modifications. The Yukawa-Tsuno equation. Separation of polar, resonance and steric effects. The Taft equation.<br />
<br />
Solvent effect on the reactivity of organic compounds.<br />
Salt effect. The Ingold solvent effect. Thermodynamic aspects of the solvent effect. Specific salvation. Donor and acceptor solvents. Solvent effect empiric parameters: Z, Et(30), Y.<br />
<br />
Brönsted Acids and Bases and Catalysis<br />
Acidity and basicity functions. Superacids media. Acidity and basicity scales in different solvents and in gas phase. Acid-base catalysis in bioorganic systems. Proton transfer reactions. The Brönsted relation.<br />
<br />
Reaction intermediates and their study<br />
Isolation, trapping and study of reaction intermediaets. Free radical classification. Free radical sources. The capto-dativo effect. Radical inhibitors. Nucleophilic and electrophilic free radicals. Organic synthesis through free radicals.<br />
<br />
Cycle formation reactions and intramolecular catalysis<br />
Vicinal groups participation and intramolecular catalysis. Kinetic and thermodynamic aspects of cycle formation reactions. Biomimetic catalysis. Synthetic enzyme models.

Full programme

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Bibliography

Eric V. Anslyn, Dennis A. Daugherty: Modern Physical Organic Chemistry, University Science Books, 2006<br />
<br />
F.A. Carey e R.J. Sundberg Advanced Organic Chemistry 4a Edizione, Plenum Press, 2001<br />
<br />
J. March Advanced Organic Chemistry Reactions, Mechanisms, and Structure , 5a Edizione John Wiley & Sons , 2000

Teaching methods

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Assessment methods and criteria

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Other information

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