1. Synthesis of block macro-CTAs by HNTs@Cu-catalyzed click reaction: Suitable CTAs for synthesizing multiblock polymers via RAFT polymerization.
- Author
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Li, Lingshan, Zhou, Qian, Zhao, Jingyi, Zhang, Yuangong, Jia, Zhaolei, Liu, Xuan, Zhang, Hailei, Ba, Xinwu, and Bai, Libin
- Subjects
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BLOCK copolymers , *POLYMERS , *NUCLEAR magnetic resonance , *RING formation (Chemistry) , *DIFFERENTIAL scanning calorimetry , *POLYMERIZATION , *ULTRAVIOLET-visible spectroscopy - Abstract
[Display omitted] • Cu@A-HNT catalysts can effectively reduce the Cu residue in MBP-CTAs, meeting the requirements of RAFT polymerization. • This study demonstrates a potential method for constructing functional materials with multiblock copolymers. • This method could enable the facile adjustment of the skeleton of multiblock copolymers. Multiblock copolymer macrochain-transfer agents (MBP-CTAs) can be used to synthesize MBPs in one pot via reversible addition-fragmentation chain-transfer (RAFT) polymerization. MBP-CTAs can be efficiently synthesized via a copper-catalyzed azide-alkyne cycloaddition reaction. However, traditional purification methods cannot sufficiently purify MBP-CTAs, resulting in the failure of RAFT. In this study, it was discovered that using a supported catalytic system, namely, Cu@A-HNTs, inhibited the connection between Cu and S. The residual Cu content in the MBP-CTA was successfully reduced to a low level (7.88 µg/mg). Then, hydrophilic and hydrophobic MBPs were synthesized through RAFT polymerization using the MBP-CTAs. Subsequently, multiblock copoly(methyl methacrylate-b-butyl methacrylate-CTA)s (PMMA-b-PBMA-c-CTA)s were successfully prepared. The MBP-CTAs and MBPs were characterized using ultraviolet–visible spectroscopy, 1H nuclear magnetic resonance, size-exclusion chromatography, matrix-assisted laser desorption/ionization-time-of-flight mass spectrometry, differential scanning calorimetry measurements and uniaxial tensile tests. The results of performance testing of PMMA-b-PBMA-c-CTAs demonstrated that their fracture stress and strain significantly increased comparing with that of PMMA-b-CTAs. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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