Xiaoping Sun

Organic Mechanisms


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reactants and products, while the overall reaction rate is dictated by the relative stability of the reactive intermediate(s).

      Whether a chemical reaction is concerted or stepwise is determined by geometry and electronic structure of reactant and product molecules and reaction conditions. In many cases, the mechanism is predictable. In the individual chapters of this book, we will study the various types of concerted and stepwise reactions and the specific conditions which make them happen.

      The number of molecules contained in the transition state of a concerted reaction is called molecularity of the reaction. Clearly, the molecularity is determined by the number of reactant molecules that are involved in the mechanism (microscopic step) of a concerted reaction.

      1.3.1 Unimolecular Reactions

      1.3.2 Bimolecular Reactions

      Almost all the concerted processes in organic reactions are either unimolecular or bimolecular steps.

      1.4.1 Rate‐Laws for Elementary (Concerted) Reactions

      For elementary reactions, the reaction orders are consistent with the molecularity. A unimolecular reaction is the first‐order in the reactant and a bimolecular reaction has a second‐order rate law.

       Unimolecular reactions

      where k is the rate constant (with the typical unit of s−1) for the reaction, and it is independent of the concentration of the reactant. The rate constant is the quantitative measure of how fast the reaction proceeds at a certain temperature.

      Rearranging Equation 1.9 leads to