物理化学学报
物理化學學報
물이화학학보
ACTA PHYSICO-CHIMICA SINICA
2010年
3期
601-609
,共9页
循环伏安%聚吡咯%电化学阻抗%离子交换%过电位
循環伏安%聚吡咯%電化學阻抗%離子交換%過電位
순배복안%취필각%전화학조항%리자교환%과전위
Cyclic voltammetry%Polypyrrole%Electrochemical impendence%Ion exchange%Overpotential
用恒电流法分别聚合了掺杂对甲苯磺酸根(pTS~-)和十二烷基磺酸根(DS~-)的聚吡咯膜(PPy/pTs和PPy/DS),通过循环伏安法(CV)和电化学阻抗法(EIS)测试了聚吡咯膜在NaC1溶液中‘过电位'电化学过程前后及不同电位下聚吡咯膜的电化学性能.同时,通过嵌入和脱出Na~+和Cl~-璃子的聚吡咯膜在特定溶液中电化学阻抗图谱,研究了离子的嵌入对聚吡咯膜电化学性能的影响.结果表明'过电位'现象可以提高聚吡咯膜的离子电导率和膜电容,C1~-离子的嵌入能提高PPy/pTS的电导率,而Na~+离子的嵌入对聚吡咯膜的电导率影响不大.另外,嵌入离子对聚吡咯膜形貌的改变会对聚吡咯膜的离子传导率有一定影响,从而导致膜的电化学阻抗的变化.
用恆電流法分彆聚閤瞭摻雜對甲苯磺痠根(pTS~-)和十二烷基磺痠根(DS~-)的聚吡咯膜(PPy/pTs和PPy/DS),通過循環伏安法(CV)和電化學阻抗法(EIS)測試瞭聚吡咯膜在NaC1溶液中‘過電位'電化學過程前後及不同電位下聚吡咯膜的電化學性能.同時,通過嵌入和脫齣Na~+和Cl~-璃子的聚吡咯膜在特定溶液中電化學阻抗圖譜,研究瞭離子的嵌入對聚吡咯膜電化學性能的影響.結果錶明'過電位'現象可以提高聚吡咯膜的離子電導率和膜電容,C1~-離子的嵌入能提高PPy/pTS的電導率,而Na~+離子的嵌入對聚吡咯膜的電導率影響不大.另外,嵌入離子對聚吡咯膜形貌的改變會對聚吡咯膜的離子傳導率有一定影響,從而導緻膜的電化學阻抗的變化.
용항전류법분별취합료참잡대갑분광산근(pTS~-)화십이완기광산근(DS~-)적취필각막(PPy/pTs화PPy/DS),통과순배복안법(CV)화전화학조항법(EIS)측시료취필각막재NaC1용액중‘과전위'전화학과정전후급불동전위하취필각막적전화학성능.동시,통과감입화탈출Na~+화Cl~-리자적취필각막재특정용액중전화학조항도보,연구료리자적감입대취필각막전화학성능적영향.결과표명'과전위'현상가이제고취필각막적리자전도솔화막전용,C1~-리자적감입능제고PPy/pTS적전도솔,이Na~+리자적감입대취필각막적전도솔영향불대.령외,감입리자대취필각막형모적개변회대취필각막적리자전도솔유일정영향,종이도치막적전화학조항적변화.
We electropolymerized polypyrrole (PPy) films doped with para-toluene sulfonate (pTS~-) and dodecyl sulfonate (DS~-) by a galvanostatic method. The influence of potential and overpotential process on the electrochemical properties of the PPy films in NaCl aqueous solution were investigated by cyclic voltammetry (CV) and electrochemical impedance spectroscopy (EIS). In addition, the influence of insertion with or without ions on the PPy films was also studied by the EIS of PPy inserted with or without Na~+ or Cl~- ions in specially prepared aqueous solutions. Results showed that the ionic conductivity and the capacitance of the PPy films increased after the first CV and the electronic conductivity of the PPy/pTS increased after the insertion of Cl~- ions. However, PPy films inserted with or without Na~+ ion showed little difference in the EIS of the PPy films. Furthermore, the ion conductivity was affected by a change in the microstructure of the PPy films with or without ions which was also apparent in the EIS.
