Structural Changes in Phase Transitions of Nylon Model Compounds. 1. Transition Behavior of Model Compounds of R-NHCO-R‘ Type

To clarify the essential features of Brill transition of aliphatic nylons, structural changes have been investigated by X-ray diffraction and infrared spectroscopic methods for the compounds CH3(CH2)10NHCO(CH2)9CH3 (designated as N11) and CH3(CH2)9NHCO(CH2)8CH3 (N10) which were assumed to be the sim...

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Published in:The journal of physical chemistry. B 2003-10, Vol.107 (43), p.11835-11842
Main Authors: Yoshioka, Yayoi, Tashiro, Kohji
Format: Article
Language:English
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Summary:To clarify the essential features of Brill transition of aliphatic nylons, structural changes have been investigated by X-ray diffraction and infrared spectroscopic methods for the compounds CH3(CH2)10NHCO(CH2)9CH3 (designated as N11) and CH3(CH2)9NHCO(CH2)8CH3 (N10) which were assumed to be the simplest models of nylons 11/11 and 10/10, respectively. Depending on the preparation conditions, N11 crystallized to the α and γ forms and N10 to the α form at room temperature. Infrared and X-ray diffraction data clarified that the α form took essentially the same chain packing structure as that of the α form of parent nylons, in which the all-trans methylene segments were packed in a triclinic subcell and the amide groups were connected by intermolecular hydrogen bonds to form a sheet structure and these sheets were stacked by a weak van der Waals force. In the DSC thermograms, the α form of N10 and N11 showed two main endothermic peaks in the Brill transition (ca. 50 °C) and melting regions. The temperature region was divided into three (I, II, and III). In region I below 50 °C, the crystal was of the α type. In region III (above 58 °C for N10 and above 65 °C for N11), the crystal transferred to the high-temperature γ form (γh), in which the molecular chains had disordered conformation, as speculated from the change in methylene progression bands and the broad amide bands, and these chains were packed in a pseudohexagonal mode. During the transition from region I to III, another phase was observed to appear discontinuously in region II. This intermediate phase showed the infrared spectra composed of the characteristic patterns of the α and γh forms but the X-ray diffraction pattern was quite unique and different from those of the latter two forms, indicating that the molecules with a hybrid conformation between the α and γh forms were packed in a unique crystal lattice. In case of the γ form of N11 compound, the molecular chains took the conformation built by skewed amide groups and partially disordered trans methylene segments even at room temperature. The crystal transferred apparently continuously to the γh form above 70 °C.
ISSN:1520-6106
1520-5207
DOI:10.1021/jp0224160