28.6 Approximate Theories of Transport Processes in Liquids 1189
Particles
being
moved
aside
Vacancy
Moving
particle
Former
position
of moving
particle
Figure 28.17 Motion of a Molecule into a Vacancy in a Liquid.This figure attempts to
illustrate the position of maximum potential energy of a molecule moving from one shell of
neighbors to another.
Diffusion
Diffusion is a process by which molecules of a substance in a mixture move from a
region of higher concentration to a region of lower concentration. It is described quite
accurately by Fick’s law of diffusion, which for diffusion in thezdirection is
Jiz−Di
∂ci
∂z
(28.6-1)
whereJidenotes the diffusion flux, defined as the net amount of substance in moles
passing through unit area of a plane per unit time, and where the concentration of
substanceiis denoted byci. The coefficientDiis called thediffusion coefficient.If
Fick’s law is obeyed,Diis independent of concentration.
We now apply the activated complex theory of Eyring and Polanyi to diffusion in
liquids. In the thermodynamic formulation of the activated complex theory, the rate
constant of a first-order reaction is given by the analogue of Eq. (26.4-16):
k
kBT
h
e−∆G
‡◦/RT
(28.6-2)
where∆G‡
◦
is the standard-state Gibbs energy change per mole to form the activated
complex, excluding motion along the reaction coordinate. We represent our liquid
by a model system that resembles a disordered crystal with fluctuating vacancies, and
assume that a molecule can occasionally move into a vacancy. As it does so, it must push
some neighboring molecules aside, moving through a state of high potential energy, as
depicted schematically in Figure 28.17. This potential energy maximum is analogous
to the maximum along the reaction coordinate for a chemical reaction described in
Section 26.4, and we treat the state of high potential energy as an activated complex.
Consider a two-component liquid system, with a concentration of component 2 that
is smaller for larger values of thezcoordinate. Assume that a vacancy occurs atzz′.