苯胺共聚物含量对氧化石墨嵌入复合物结构与性能的影响

无机材料学报, 2008, 23(5): 945-949. doi: 10.3724/SP.J.1077.2008.00945

苯胺共聚物含量对氧化石墨嵌入复合物结构与性能的影响

叶剑坤 , 王庚超 , 姚斌 , 李星玮

School of Materials Science &

Engineering, Key Laboratory for Ultrafine Materials of Ministry of Education, East China University of Science &

Technology, Shanghai 200237, China

关键词：导电聚合物 , graphite oxide , delamination/reassembling method

Effect of Content of Poly(aniline-co-o-anisidine) on Structure and Properties of Intercalated Graphite Oxide Composites

YE Jian-Kun , WANG Geng-Chao , YAO Bin , LI Xing-Wei

Keywords： conducting polymer , 氧化石墨 , 剥离/重新组装方法

以氧化石墨(GO)为主体, 苯胺-邻甲氧基苯胺导电共聚物(P(An-co-oAs))为客体, 采用剥离/重新组装技术合成出P(An-co-oAs)嵌入GO复合材料. FTIR分析显示, P(An-co-oAs)的N-H基团与GO片层中的C=O基团存在着氢键作用. XRD和TEM分析表明, P(An-co-oAs)/GO保持良好的层状结构, 且随着P(An-co-oAs)含量的增加, 复合材料的层间距不断扩大. P(An-co-oAs)的插入, 使得复合材料的室温电导率比GO提高2～3个数量级. 同时发现, 增加P(An-co-oAs)的含量, 不仅提高了GO的电化学活性, 也改善了GO的锂离子嵌入/脱嵌的循环稳定性.

Aniline/o-anisidine copolymer (P(An-co-oAs)) intercalated graphite oxide (GO) composites were synthesized through the delamination/reassembling method using GO as host and conducting P(An-co-oAs) as guest. FTIR spectra indicate that the hydrogen bonds are formed between the amino groups of P(An-co-oAs) and the carbonyl groups on the internal layers of GO. XRD and TEM results show that the P(An-co-oAs)/GO composites maintain good lamellar structure, and the interlayer spacing of GO is enlarged with the increase of the added amount of P(An-co-oAs). The electrical conductivity of the composites is 2 to 3 orders of magnitude higher than that of the GO. The intercalation of P(An-co-oAs) also has a pronounced effect on the electrochemical properties of the GO.

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