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as that predicted for the R3c model (see Figure 6.16a). It is noticed that the right‐handed upward (Ru) chain and the left‐handed downward (Ld) chain show the same projected structure perfectly (Figure 6.16c). The Lu and Rd chains are also in the same situation. Then, the plausible pair of the two neighboring sites is (Ru/Ld and Lu/Rd, case 3) or (Ru/Ld and Ru/Ld, case 4), as illustrated in Figure 6.16c. Finally, the model of case 3 was found as the best candidate to reproduce the observed X‐ray diffraction data. The crystal structure is shown in Figure 6.19. Different from the case of the R3c model, the P3 model gives better agreement for all the layer‐line profiles up to the higher angle regions as seen in Figure 6.20a. Besides, as already mentioned, the R and L chains can be located at one site with various ratios, satisfying well the experimental data shown in Figure 6.20.

Schematic illustration of temperature dependence of X-ray diffraction profiles of the solution-cast films, (a) PLLA/PDLA 50/50 and (b) PLLA/PDLA 70/30 sample measured in the heating, cooling, and reheating processes.

      Source: Reproduced from Tashiro et al., Macromolecules 2017, 50, 8048−8065.

Schematic illustration of 2-Dimensional X-ray diffraction diagrams of the uniaxially oriented SC phase of the PLLA/PDLA blend samples with the various L/D ratios.

      Source: Reproduced from Tashiro et al., Macromolecules 2017, 50, 8048−8065.

      6.5.2 Experimental Support of P3 Structure Model

      The P3 structural model is consistent with the various experimental data. The details are discussed in the original paper [46, 47]. Several representative points are listed below:

      1 According to the International Tables for Crystallography [53], the (000l) diffractions are expected to appear for l = 6, 12, … in the case of the R3c model. But no such extinction rule is predicted for the P3 model. As seen in the actually measured Weissenberg pattern shown in Figure 6.20b, the 0003 diffraction was clearly observed in addition to 0006, 00012 peaks. The R3c model cannot satisfy this result.

      2 Once the stereocomplex is formed, it does not transform to the α form anymore even after many repetitions of melting and slow cooling (Figure 6.17). The L or D chains are supposed to be trapped into the stereocomplex region without a remarkable change of the spatial arrangements.FIGURE 6.19 Crystal structure of PLLA (L)/PDLA (R) stereocomplex. One lattice site is statistically occupied by a pair of Rd and Lu chains and the neighboring site by a pair of Ru and Ld chains: (a) along the c‐axis and (b) along the 110 plane.Source: Reproduced from Tashiro et al., Macromolecules 2017, 50, 8048−8065.

      3 The experimental data including the formation of the spherulites and the single crystal of the stereocomplex and the SAXS data analysis [77, 78] are interpreted by assuming the existence of the stacked lamellar structure with the upward and downward chain stems (or the folded chain structure). The R3c model is difficult to apply for the interpretation of these experimental data.

      4 Another important experimental evidence to show the reasonableness of the P3 model comes from the vibrational circular dichroism (VCD) data. The VCD is one powerful technique to distinguish the R and L chains in the crystal lattice. The right‐handed and left‐handed rotating IR beams (r‐ and l‐circularly‐polarized beams, respectively) are incident to the sample. The l‐polarized IR beam is absorbed by the L chains and the r‐polarized IR beam by the R chains. The absorbance difference, ΔAbs(ν) = Abs L(ν) −Abs R(ν), is 0 if the L and D species are in the equal amounts in the sample, but it changes with other L/D blend ratios. Since the IR bands of the crystalline and amorphous phases can be distinguished easily, the measurement of ΔAbs for the crystalline bands can be used to study the R3c and P3 models. For the R3c model, the ΔAbs of the crystalline bands should be always 0 even when the L/D ratio is changed, while the ΔAbs may change depending on the R/L ratio for the P3 model.

Image described by caption.

      Source: Reproduced from Tashiro et al., Macromolecules 2017, 50, 8048−8065.

      6.5.3 Formation Mechanism of Stereocomplex


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