Nihal B. Kottan, Prajwal M. Laxmeesha, M. PurnachandraGaneshK, B. Chaluvaraju, M. Murugendrappa
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引用次数: 0
摘要
氧化钒:以五氧化二钒为原料,在葡萄糖的存在下,采用水热法合成了一相和二相纳米粉体。采用化学聚合(氧化)法制备了吡咯中1相、2相氧化钒的质量分数分别为15%、30%、45%和60%的聚吡咯/氧化钒(PV P-1和PV P-2)纳米复合材料。氧化钒:相1和相2纳米粉末的SEM显微图显示出纳米带和纳米棒与PV - P-1和PV - P-2纳米复合材料的混合,表明复合材料具有几乎球形的簇状结构,并且在某些地方形成伸长的链。电导率与频率的关系图显示电导率呈指数增长。在1 MHz时,当聚吡咯中VO2 P-1的重量为15wt . %时,s的值增加到1.13x10-3 s /cm;当聚吡咯中VO2 P-2的重量为30wt . %时,s的值增加到2.43x10-3 s /cm。
Characterization of Multiphase Polypyrrole/Vanadium Oxide Nano Composites for a.c. Conductivity and Dielectric Properties
Vanadium oxide: Phase-1 and Phase-2 nano powers were synthesized from vanadium pentoxide in the presence of glucose using hydrothermal technique. The polypyrrole/vanadium oxide (PV P-1 and PV P-2) nano composites were synthesized with 15, 30, 45 and 60 weight percents of vanadium oxide: Phase-1 and Phase-2 in pyrrole, by the chemical polymerization (oxidation) method. The SEM micrographs of vanadium oxide: Phase-1 and Phase-2 nano powders have shown mixture of nano belts & rods and PV P-1 & PV P-2 nano composites indicate that the composites have cluster formation with almost spherical nature particles and form elongated chains at some places. Conductivity versus frequency plots shown that exponential increase for conductivity. The value of s increases to 1.13x10-3 S/cm for 15 wt. % of VO2 P-1 in polypyrrole & to 2.43x10-3 S/cm for 30 wt. % of VO2 P-2 in polypyrrole at 1 MHz.
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