俘获
电荷(物理)
聚丙烯
极地的
材料科学
氢键
化学物理
氢
铅(地质)
化学
复合材料
物理
有机化学
分子
生物
生态学
量子力学
天文
古生物学
作者
Shixun Hu,Wenjia Zhang,Chi Yao,Shangshi Huang,Zhen Luo,Xiyu Zhang,Xinhua Dong,Xin Yu,Jun Hu,Qi Li,Xiangyang Peng,Jinliang He
标识
DOI:10.1021/acs.jpclett.4c02619
摘要
How to fundamentally suppress charge transport is one of the essential issues in polymer dielectrics. This work reports significant charge transport suppression by glycidyl methacrylate (GMA) side group modification on polypropylene (PP). Experimental and computational investigations discover for the first time a quasi-hydrogen bond effect generated by carbonyl and epoxide of GMA in PP inter/intramolecular structure, while introducing trap energy levels within the HOMO-LUMO gap. These energy levels suppress the leakage current of GMA-modified PP thanks to the charge-trapping effect. The quasi-hydrogen bond originating from the interaction between the high-polar GMA group and flexible PP chain raises the thermostability while averaging the electron distribution between hydrogen and acceptor oxygen, which is conducive to lessening electric weak points, suppressing charge transport, and finally enhancing the electrical breakdown strength. This work provides new thinking on polymer dielectric design and charge transport regulation utilizing electron structure and weak interaction at the molecular scale.
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