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A Robust and Soluble Nanopolymer Based on Molecular Grid-based Nanomonomer
- Corresponding author: Ling-hai Xie, iamlhxie@njupt.edu.cn Wei Huang, iamwhuang@njupt.edu.cn
Citation:
Quan-you Feng, Ye-long Han, Meng-na Yu, Bin Li, Ying Wei, Ling-hai Xie, Wei Huang. A Robust and Soluble Nanopolymer Based on Molecular Grid-based Nanomonomer[J]. Chinese Journal of Polymer Science,
;2017, 35(1): 87-97.
doi:
10.1007/s10118-016-1856-7
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Shape persistent conformations reduce the complexity of polymer materials. Herein, we propose a concept on the nanopolymer that is a nanoscale polymer chain with the repeat units of nanomonomers. In this article, a soluble organic nanopolymer of wide bandgap semiconductors was synthesized by the Yamamoto polymerization of nanogrid monomer as the repeat units with the rectangle size of ~1.7 nm×1.2 nm. The alkyl side chain substituent at 9-position of fluorenes guarantees the polygrid with excellent solubility. Tetrafluorenes in the conjugation-interrupted backbones of polygrid acts as the active light-emitting centers without obvious green band in the fluorescence spectra of the films after 10 h annealing at 180℃, indicating this nanopolymer exhibits excellent spectral stability. Such soluble nanopolymers will be the fifth-generation of macromolecular materials with a potential character of overall performance improvement.
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Keywords:
- Conformation,
- Polyfluorenes,
- Polygirds,
- Nanopolymers,
- Nanomaterials,
- Stability
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