566 13 Chemical Reaction Mechanisms II: Catalysis and Miscellaneous Topics
13.1 Catalysis
Jons Jakob Berzelius, 1779–1848,
was a great Swedish chemist who
dominated the field of chemistry for
several decades and who invented the
present system of chemical symbols for
the elements.
A substance that increases the rate of a chemical reaction but does not appear in its
stoichiometric equation is called acatalyst. This term was coined in 1836 by Berzelius
from the Greek wordskata(“wholly”) andlyein(“to loosen”).^1 Catalysis can be divided
into three classes: Inhomogeneous catalysisall substances involved in the reaction,
including the catalyst, occur in the same phase. Inheterogeneous catalysisthe catalyzed
reaction occurs at the boundary between two phases (usually on the surface of a solid
catalyst).Enzyme catalysisis a special case of homogeneous catalysis, which we will
discuss separately. A catalyst generally provides an alternative mechanism involving
the catalyst that competes with the uncatalyzed mechanism. If the catalyzed mechanism
is faster than the uncatalyzed mechanism, the observed rate of the reaction is primarily
due to the catalyzed mechanism, although the reaction is also still proceeding by the
uncatalyzed mechanism.
Exercise 13.1
Some elementary chemistry textbooks include the statement “A catalyst lowers the activation
energy of a reaction.” Write a critique of this misleading statement.
Heterogeneous Catalysis
This type of catalysis occurs at a surface, usually a solid surface. Recent developments
in nanotechnology have produced nanometer-size solid particles that act as efficient
catalysts.^2 A solid catalyst acts by adsorbing molecules from a gas or liquid phase onto
its surface, where they react. Consider a unimolecular process in the gas phase,
A(gas)−→products (13.1-1)
and a catalyzed mechanism,
(1) A(gas)+surface siteA(adsorbed) (13.1-2)
(2) A(adsorbed)−→products (13.1-3)
If the second step is rate-limiting, the first step can be assumed to be at equilibrium.
We now present a simple equilibrium theory of adsorption in order to discuss the
equilibrium of the first step of this mechanism.
The Langmuir Theory of Adsorption
This theory assumes the process
A+surface siteA(adsorbed) (13.1-4)
We assume that only a single layer of molecules (amonolayer) can be adsorbed on the
surface sites. These sites might include all of the atoms of the solid surface or might be
surface imperfections such as a “step” between two layers of atoms, as schematically
depicted in Figure 13.1.
Figure 13.1 Idealized Sites on a
Solid Surface.
(^1) K. J. Laidler,Chemical Kinetics, Harper and Row, New York, 1987, p. 229.
(^2) N. Tian, Z.-Y. Zhou, S.-G. Sun, Y. Ding, and Z. L. Want,Science, 316 , 732 (2007).