期刊论文详细信息
Bulletin of materials science
Electrical transport in ethyl cellulose�?�chloranil system
P K Khare1  P L Jain3  R K Pandey2 
[1] Department of Postgraduate Studies and Research in Physics and Electronics, Rani Durgavati University, Jabalpur 482 001, India$$Department of Postgraduate Studies and Research in Physics and Electronics, Rani Durgavati University, Jabalpur 482 001, IndiaDepartment of Postgraduate Studies and Research in Physics and Electronics, Rani Durgavati University, Jabalpur 482 001, India$$;Department of Physics, Dr H S Gour University, Sagar 470 002, India$$Department of Physics, Dr H S Gour University, Sagar 470 002, IndiaDepartment of Physics, Dr H S Gour University, Sagar 470 002, India$$;Government Postgraduate College, Damoh 470 661, India$$Government Postgraduate College, Damoh 470 661, IndiaGovernment Postgraduate College, Damoh 470 661, India$$
关键词: Electrical transport;    ethyl cellulose;    chloranil;    charge transfer complex;    molecular aggregates;    Richardsonâ€�?�Schottky;    Pooleâ€�?�Frenkel;    space charge limited current.;   
DOI  :  
学科分类:材料工程
来源: Indian Academy of Sciences
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【 摘 要 】

The charge-transport behaviour in pure and chloranil (Chl) doped ethyl cellulose (EC) system has been studied by measuring the dependence of current on field, temperature, electrode material and dopant concentration. The role of doping molecular concentration in the polymer matrix and modification in the conduction characteristics are studied. Lowering of the activation energy due to doping was observed. The current was found to increase with an increase in the chloranil concentration. An explanation for this has been attempted on the basis of formation of molecular aggregates between chloranil molecules and ethoxy groups of ethyl cellulose. It is suggested that chloranil occupies interstitial positions between the polymer chains and assists in carrier transportation by reducing the hopping barriers. The current�?�voltage characteristics of different samples are analyzed using space charge limited current theory and quantitative information about the transport parameters is derived. The values of effective drift mobility and trapped charge carrier concentration which result in the build up of space charge have been calculated.

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