CHAP. 8: CHEMICAL EQUILIBRIUM [CONTENTS] 243
8.2.8 Reactions in the solid phase
- Choosing as the standard state a pure substance at the temperature and pressure of the
system, the activity of solids which do not form solid solutions equals 1.
For a reaction between immiscible solids we have
∆rG= ∆rG• [T, p] (8.17)and the reaction proceeds in the direction of decrease in the Gibbs energy until at least one
of the reacting substances disappears from the mixture. The reactants are in equilibrium with
the products only if ∆rG•= 0.
- Solid solutions (e.g. amalgams) are processed in the same way as liquids [see the
preceding section].
Example
Say whether red (1) and white (2) phosphor can be in equilibrium at 298 K and 101.325 kPa
if you know that under these conditions the molar Gibbs energies of the pure substances are
G•m, 1 =− 6. 804 kJ mol−^1 andG•m, 2 = 5. 2 kJ mol−^1.Solution
For the reaction
0 = P(red,s)−P(white,s)
we have∆rG•=G•m, 1 −G•m, 2 =− 12. 004 kJ mol−^1. For the sake of the unit activities of both
solid substances it follows
∆rG= ∆rG•< 0
and therefore equilibrium cannot be attained, but the reaction proceeds until all white phosphor
transforms into red phosphor. In the same way it can be shown thatG= (n◦ 1 +ξ)G• 1 + (n◦ 2 −ξ)G• 2will linearly decrease with increasingξ.