additional free energy contributions. The first contribution is from each chain
crossing over the interfaces, as
DHint¼kTwAdint
v(9.42)
wherevis the volume of each chain unit,dintis the interface thickness, the interface
area contributed from each coil isA¼rv/d,dis the long period, andrrepresents
the number of chain units on each chain. We know that at the critical phase
separation, symmetric polymer blends contain
wc¼2
rc(9.43)
At the interfaces, the critical mixing coil sizes (proportional to the reciprocal of
the mixing interaction parameter) are comparable to the interface thickness.
Accordingly,
dintv^1 =^3 rc^1 =^2 v^1 =^3 w^1 =^2 (9.44)Therefore,DHintkTw^1 =^2 v^1 =^3r
d(9.45)
Fig. 9.11 Illustration of specific geometric shapes of microdomains formed by diblock
copolymers. Fromlefttorightare spheres, cylinders, gyroids and lamellae
Fig. 9.12 Illustration of microdomain sizes of symmetric diblock copolymers
180 9 Polymer Phase Separation