由于 TiO2 与聚苯胺和聚吡咯的导电共聚物的协同效应，其可见光光催化降解性能和热稳定性。

Visible-light photocatalytic degradation performances and thermal stability due to the synergetic effect of TiO2 with conductive copolymers of polyaniline and polypyrrole.

机构信息

Key Laboratory of Jiangxi Province for Persistent Pollutants Control and Resources Recycle, Nanchang Hangkong University, Nanchang 330063, PR China.

出版信息

Nanoscale. 2013 Sep 21;5(18):8703-10. doi: 10.1039/c3nr02502k.

DOI:10.1039/c3nr02502k

PMID:23900296

Abstract

Conductive polypyrrole-polyaniline/TiO2 nanocomposites (PPy-PANI/TiO2) were prepared by in situ oxidative copolymerization of pyrrole and aniline monomers in the presence of TiO2. For comparison studies, polypyrrole/TiO2 (PPy/TiO2) and polyaniline/TiO2 (PANI/TiO2) were also prepared. The samples were characterized by X-ray diffraction, transmission electron microscopy, UV-vis diffuse reflectance spectroscopy, zeta potential analysis, Fourier transform infrared spectroscopy, thermogravimetric analysis and photocurrent tests. In contrast to PPy/TiO2 and PANI/TiO2, PPy-PANI/TiO2 exhibits obvious absorption in the visible-light range, and is much superior to PPy/TiO2 and PANI/TiO2 in thermal stability. It is found that PPy-PANI/TiO2 performs well in the visible-light photocatalytic degradation of 4-nitrophenol. The optimized pyrrole : aniline : TiO2 molar ratio for best performance is 0.75 : 0.25 : 100. The efficacy of PPy-PANI/TiO2 is attributed to its conductivity, conjugated structure, as well as to the synergy amidst polypyrrole, polyaniline and TiO2.

摘要

导电聚吡咯-聚苯胺/TiO2 纳米复合材料（PPy-PANI/TiO2）是通过在 TiO2 存在下吡咯和苯胺单体的原位氧化共聚制备的。为了进行比较研究，还制备了聚吡咯/TiO2（PPy/TiO2）和聚苯胺/TiO2（PANI/TiO2）。通过 X 射线衍射、透射电子显微镜、紫外-可见漫反射光谱、Zeta 电位分析、傅里叶变换红外光谱、热重分析和光电流测试对样品进行了表征。与 PPy/TiO2 和 PANI/TiO2 相比，PPy-PANI/TiO2 在可见光范围内表现出明显的吸收，并且在热稳定性方面优于 PPy/TiO2 和 PANI/TiO2。研究发现，PPy-PANI/TiO2 在可见光下对 4-硝基苯酚的光催化降解性能良好。最佳性能的最佳吡咯：苯胺：TiO2 摩尔比为 0.75：0.25：100。PPy-PANI/TiO2 的功效归因于其导电性、共轭结构以及聚吡咯、聚苯胺和 TiO2 之间的协同作用。

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由于 TiO2 与聚苯胺和聚吡咯的导电共聚物的协同效应，其可见光光催化降解性能和热稳定性。

Visible-light photocatalytic degradation performances and thermal stability due to the synergetic effect of TiO2 with conductive copolymers of polyaniline and polypyrrole.

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