Experiments on blends of two block copolymers

Until recently, very little quantitative information was available on blends of block copolymers. The literature is summarized in Table 6.3. Hoffman et al. (1970) reported microscopic demixing of blends of PS-PB diblocks, with two maxima in the domain size distribution, but with no evidence tor macrophase separation. These findings must be treated with caution in the light of more recent results. Hadziioannou and Skoulios (1982) used SAXS and SANS to investigate the morphology of binary blends of PS-PI diblocks, and binary PS-PI/PS-PI-PS or PS-PI/PI-PS-PI blends or blends of the two types of triblock. They found that the blends were microphase separated, and that the sharpness of the interface was not reduced in blends compared to neat copolymers. The transition between a lamellar and a cylindrical structure was shown to depend primarily on blend composition. In contrast, the transition from a lamellar to a disordered phase at 

For the nearly symmetric copolymers studied by Hashimoto et al. (1994), the mismatch in composition was small. Thus, the approximate effective Flory-Huggins interaction parameter 

The period of the lamellar phase observed in blends of two symmetric PS-PI diblocks was measured using SAXS and TEM by Kane ef al. (1996). They observed that copolymers with d = 5 or less were microscopically mixed, whereas phase separation was observed in a blend with d = 10, in agreement with the 

The morphology of blends of asymmetric PS-Pl diblocks that do not form lamellar phases has been investigated using transmission electron microscopy by Koizumi et al. (1994c). They considered three cases (i) approximately equal 

UsingTEM to identify blend morphology, two diblocks with/ps 0.8 that form cubic-packed spherical phases and cylindrical phases respectively in the pure copolymer were found not to macrophase separate in a blend with d = 2.2, but to form single domain structures (cylinders or spheres) in the blend (Koizumi et al. 1994c). Similarly, blending a diblock with fK = 0.26 with one with fK = 0.64 (d = 1.2) led to uniform microphase-separated structures, with a lamellar phase induced in the 50 50 blend. Vilesov et al. (1994) also observed that blending two PS-PB diblocks with approximately inverse compositions (i.e. 22wt% PS and 72 wt% PS) induces a lamellar phase in the 50 50 blend. These examples all correspond to case (i). 

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