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首页> 外文期刊>Microelectronics journal >Fabrication and effect of the dielectric permittivity on the ideality factor of MEH-PPV Schottky diodes doped with electron acceptor fluorescent dyes
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Fabrication and effect of the dielectric permittivity on the ideality factor of MEH-PPV Schottky diodes doped with electron acceptor fluorescent dyes

机译:介电常数的制备及其对掺电子受体荧光染料的MEH-PPV肖特基二极管理想因子的影响

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Polymeric Schottky diodes have been prepared using poly[2-methyl-5-(2'-ethyl-hexyloxy)-1,4-phenylene vinylene] (MEH-PPV) conducting polymers. The I-V characteristics of these diodes are interpreted in terms of thermoionic emission (TIE) conduction process. Upon blending the polymer with Nile blue (NB) dye the conduction shows a cross-over from space-charge limited conduction (SCLC) to TIE at biasing voltages larger than 4 V. Disappearance of SCLC is seen in Rhodamine B (RhB)-based diodes and the conduction is interpreted in terms of the TIE process. Inclusion of the dielectric permittivity of the polymer/dye blends in interpreting the I-V characteristics of diodes is found to be crucial. A significant reduction of the ideality factor (n) from 6 to 1.8 is determined when MEH-PPV is mixed with NB or Rhodamine fluorescent dyes.
机译:已经使用聚[2-甲基-5-(2'-乙基-己氧基)-1,4-亚苯基亚乙烯基](MEH-PPV)导电聚合物制备了聚合物肖特基二极管。这些二极管的I-V特性是根据热离子发射(TIE)传导过程来解释的。在将聚合物与尼罗蓝(NB)染料混合后,在大于4 V的偏置电压下,导电显示出从空间电荷受限导电(SCLC)到TIE的交叉。在若丹明B(RhB)基中看到了SCLC的消失二极管和导电是根据TIE过程来解释的。发现在解释二极管的I-V特性时,将聚合物/染料混合物的介电常数包括在内是至关重要的。当MEH-PPV与NB或若丹明荧光染料混合时,理想因子(n)从6显着降低到1.8。

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