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首页> 外文期刊>Solid State Communications >Hopping and tunneling transport over a wide temperature range in chemically synthesized doped and undoped polypyrrole
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Hopping and tunneling transport over a wide temperature range in chemically synthesized doped and undoped polypyrrole

机译:Hopping and tunneling transport over a wide temperature range in chemically synthesized doped and undoped polypyrrole

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Polypyrrole was synthesized by the chemical oxidation method in the presence of phosphoric acid by varying oxidant to monomer molar ratio for the optimization of electrical conductivity. The conductivity in doped polypyrrole reached up to a maximum value of 9.18 Scm. Granular morphology was observed in chemically synthesized polypyrrole. Neutralization of doped polypyrrole was done with aqueous ammonium hydroxide and three orders of reduced conductivity were obtained in neutral polypyrrole. Doped and undoped samples of polypyrrole were then electrically characterized over a wide temperature range of 10300 K. The measured electrical conductivity rises with the increase in temperature and shows the semiconducting nature of the material. Strong and weak temperature dependence of conductivity was revealed by undoped and doped polypyrrole samples respectively. An effort has been made to explore the electrical transport in doped and undoped polypyrrole by charge transport models. The experimental data obeys Kivelson's hopping model in temperature range of 60300 K and fluctuation assisted tunneling was the dominant conduction mechanism below 60 K.

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