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Fabrication and characterization of CL-20/PEI/GO composites with enhanced thermal stability and desensitization via electrostatic self-assembly

Applied Surface Science (2021) 558
DOI: 10.1016/j.apsusc.2021.149933
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Abstract

To improve the encapsulation of GO to CL-20, PEI was utilized as a linker bridge to self-assemble into composite CL-20/PEI/GO in this study. The self-assembly was in-depth characterized, including Zeta potential, SEM, DLS, XPS, Raman spectra, HPLC and power-XRD. The possible self-assembled mechanism was also proposed, which indicates the electrostatic interaction introduced by PEI should be responsible for the self-assembly. The performance of a self-assembled composite was characterized by BAM and DSC analysis. And the results indicate the enhanced interaction promotes GO more efficiently encapsulate CL-20 and improve the safety of the energetic material. Therefore, this work demonstrates a novel and facile method to solve the deprived interaction and corresponding weak desensitization between desensitizer and energetic material.

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APA

Song, X., Huang, Q., Jin, B., & Peng, R. (2021). Fabrication and characterization of CL-20/PEI/GO composites with enhanced thermal stability and desensitization via electrostatic self-assembly. Applied Surface Science, 558. https://doi.org/10.1016/j.apsusc.2021.149933

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