Uniform Continuous and Segmented Nanofibers Containing a π-Conjugated Oligo(p-phenylene ethynylene) Core via “Living” Crystallization-Driven Self-Assembly: Importance of Oligo(p-phenylene ethynylene) Chain Length
2020
Nie, Jiucheng | Wang, Zhiqin | Huang, Xiaoyu | Lu, Guolin | Feng, Chun
π-Conjugated nanofibers of controlled length and composition show promising potential applications from biomedicine to optoelectronics. However, efficient preparation of uniform nanofibers from π-conjugated polymers with precise control over length and composition poses an outstanding challenge. Herein, we report the synthesis of a suite of block copolymers (BCPs) containing π-conjugated crystalline oligo(p-phenylene ethynylene) (OPE) segments of different chain lengths and a poly(N-isopropylacrylamide) (PNIPAM) or a poly(2-vinylpyridine) (P2VP) block (OPE₅-b-PNIPAM₄₇, OPE₇-b-PNIPAM₄₇, OPE₉-b-PNIPAM₄₇, and OPE₉-b-P2VP₅₆; subscripts indicate the number of repeat units). The length of OPE segment significantly affected the self-assembly OPE-based BCPs. OPE₅-b-PNIPAM₄₇ chains were molecularly dissolved in ethanol. Although OPE₇-b-PNIPAM₄₇ formed fiber-like micelles of uniform width initially, these micelles were not frozen at room temperature (23 °C), leading to the transformation from regular fiber-like micelles to irregular spherical aggregates upon aging for 7 days. Polydisperse fiber-like micelles of uniform width with kinetically frozen morphology at 23 °C were formed for OPE₉-b-PNIPAM₄₇ in ethanol by a direct heating–cooling cycle. The results were supported by the observations in dynamic light scattering, UV–vis, and fluorescence measurements, which indicated the resistance of OPE-based micelles toward micelle dissolution increased with the rising of OPE chain length. By the self-seeding approach of living crystallization-driven self-assembly (CDSA), uniform continuous micelles of controlled length (∼40 nm–1.2 μm) consisting of an OPE core and PNIPAM or P2VP shell can be obtained although micelles of OPE₉-b-PNIPAM₄₇ and OPE₉-b-P2VP₅₆ exhibited different resistance toward micelle dissolution. Significantly, a series of uniform segmented OPE-based fiber-like comicelles and their hybrid nanostructures with excellent length and composition tunability can be achieved by the seeded growth approach of living CDSA. Overall, we provided a facile access to the fabrication of OPE-based nanofibers with precise control over their length and composition along with instructive information about the influence of structure of π-conjugated block on the CDSA of BCPs containing a crystalline π-conjugated segment.
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