近紫外电致发光硅聚合物的双极行为

Proceedings of 5th Asian Symposium on Information Display. ASID '99 (IEEE Cat. No.99EX291) Pub Date : 1999-03-17 DOI:10.1109/ASID.1999.762705

K. Furukawa, C. Yuan, S. Hoshino, H. Suzuki, N. Matsumoto

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引用次数: 0

摘要

为了更好地理解聚合物led中载流子的输运行为，采用飞行时间法研究了近紫外电致发光聚合物聚双(对丁基苯基)硅烷。用387nm的脉冲相干光照射高电场带电聚合物薄膜，检测载流子迁移信号。其空穴漂移迁移率为1/ sp1倍/10/sup -4/ cm/sup 2//Vs，是聚硅烷中常见的典型现象。对于带相反电荷的聚合物薄膜，虽然没有电子迁移的迹象，但出现了强烈的信号。这有力地表明电子很容易被注入到聚合物薄膜中。因此，所述聚合物的双极性性质有助于将电子和空穴注入聚合物基体，并导致尽管是单层二极管结构，但仍能产生有效的电致发光。

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Bipolar behavior in a near UV electroluminescent silicon polymer

To better understand the transport behavior of carriers in polymer LEDs, a near-ultraviolet electroluminescent polymer, poly[bis(p-butylphenyl)silane] was investigated by means of time-of-flight method. The signal of carrier migration was detected when pulsed coherent light at 387 nm was illuminated on the high electric field charged polymer thin film. It shows a hole drift mobility of 1/spl times/10/sup -4/ cm/sup 2//Vs, a typical phenomenon often observed in polysilanes. For an oppositely charged polymer film, an intense signal appeared although there was no indication of electron migration. It strongly suggests that electrons are readily injected into the polymer film. Thus, the bipolar nature of the described polymer facilitates the injection of electrons and holes into the polymer matrix and leads to the occurrence of an efficient electroluminescence in spite of a single-layer diode structure.

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Proceedings of 5th Asian Symposium on Information Display. ASID '99 (IEEE Cat. No.99EX291)

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