|本期目录/Table of Contents|

[1]朱寒冰,黄瑜,李亮.甲基橙掺杂聚吡咯纳米管的合成及其性能[J].武汉工程大学学报,2011,(07):17-21.
 ZHU Hanbing,HUANG Yu,LI Liang.Synthesis and performance of polypyrrole nanotubes doped with methyl orange[J].Journal of Wuhan Institute of Technology,2011,(07):17-21.
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甲基橙掺杂聚吡咯纳米管的合成及其性能(/HTML)
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《武汉工程大学学报》[ISSN:1674-2869/CN:42-1779/TQ]

卷:
期数:
2011年07期
页码:
17-21
栏目:
材料科学与工程
出版日期:
2011-08-30

文章信息/Info

Title:
Synthesis and performance of polypyrrole nanotubes doped
with methyl orange
文章编号:
16742869(2011)07001705
作者:
朱寒冰黄瑜李亮
武汉工程大学材料科学与工程学院,湖北 武汉 430074
Author(s):
ZHU Hanbing HUANG Yu LI Liang
School of Materials Science and Engineering, Wuhan Institute of Technology, Wuhan 430074, China
关键词:
导电聚合物聚吡咯纳米管氧化剂掺杂剂修饰电极
Keywords:
polypyrrole nanotubes methyl orange modified electrode
分类号:
O633
DOI:
-
文献标志码:
AAdoi:10.3969/j.issn.16742869.2011.07.005
摘要:
通过化学氧化法,以Fe(NO3)3为氧化剂,甲基橙(MO)为掺杂剂合成了聚吡咯纳米空心管.通过FTIR、SEM、TEM和电导率测试等研究了氧化剂和掺杂剂等对聚吡咯形貌结构和电导率的影响;并将聚吡咯纳米管涂覆在工作电极表面制作而成的修饰电极经循环伏安法测试表明具有良好的氧化还原可逆性.
Abstract:
Polypyrrole nanotubes are one kind of the most promising materials for potential applications. In this paper,polypyrrole nanotubes doped with methyl orange (MO) were prepared by using Fe(NO3)3 as the oxidant. The effects of Fe(NO3)3 and MO on the morphology and conductivity of the nanotubes have been studied by FTIR, SEM, TEM and conductivity test. Moreover, the cyclic voltammetry indicated that the polypyrrole nanotubes modified electrode possessed the redox reversibility.

参考文献/References:

[1]Yang X M, Zhu Z X, Dai T Y, et al. Facile fabrication of functional polypyrrole nanotubes via a reactive selfdegraded template [J]. Macromol Rapid Commun, 2005, 26: 17361740.
[2]马建标, 李晨曦. 功能高分子材料 [M]. 北京:化学工业出版社, 2000.
[3]Gao H X, Jiang T, Han B X, et al. Aqueous/ionic liquid interfacial polymerization for preparing polyaniline nanoparticles [J]. Polymer, 2004, 45(9): 3017.
[4]吕进玉, 林志东, 曾文. RuO2/聚苯胺复合材料电极的制备及电化学性能表征 [J]. 武汉工程大学学报, 2008(1): 6669.
[5]Zhang L J, Wan M X. Selfassembly of polyaniline from nanotubes to hollow microspheres [J]. Advanced Functional Materials, 2003, 13(10): 815.
[6]Qiu H J, Zhai J, Li S H, et al. Oriented growth of selfassembled polyaniline nanowire arrays using a novel metod [J]. Advanced Functional Materials, 2003, 13(12): 925.
[7]Pillalamarri S K, Blum F D, Tokuhiro A T, et al. Radiolytic synthesis of polyaniline nanofibers: a new templateless pathway [J]. Chem Mater, 2005, 17: 227.
[8]Chung C K. The bromine doping of polyacetylene [J]. Phys, 2003, 321(1/2): 139.
[9]Liu Y C, Chung K C. Characteristics of conductivityimproved polypyrrole films via different procedures [J]. Synthtic Metals, 2003, 139(2): 277.
[10]Udum Y A, Pekmez K Y, Electropolymerization of selfdoped polythiophene in acetonitrile containing FSO3H [J]. Synthetic Metals, 2004, 142(1/2/3): 7.
[11]Xing S X, Zhao C, Jin S Y, et al. Morphology and conductivity of polyaniline nanofibers prepared by seeding polymerization [J]. Polymer, 2006, 47: 2305.
[12]Zhang Z M,Wan M X, Wei Y. Highly crystalline polyaniline nanostructures doped with dicarboxylic acids [J]. Advanced Functional Materials, 2006, 16: 1100.
[13]Xia H B, Navayanan J,Cheng D M, et al. Formation of ordered arrays of oriented polyaniline nanoparticle nanorods [J]. J Phys Chem B, 2005, 109: 12677.
[14]陈国华, 颜文礼. 化学法合成导电聚吡咯的研究现状 [J]. 华侨大学学报:自然科学版, 1994,15(2):172176.
[15]Thuebkenont D J, Gabelle J L, Planche M F. polypyrrole overoxidation during its chemical synthesis [J]. Synth Met, 1994, 66: 243 247.

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