Improved optoelectronic characteristics of light-emitting diodes by using a dehydrated nanotube titanic acid (DNTA)-polymer nanocomposite

L. Qian; F. Teng; Z. S. Jin; Z. J. Zhang; T. Zhang; Y. B. Hou; S. Y. Yang; X. R. Xu

doi:10.1021/jp047593a

Improved optoelectronic characteristics of light-emitting diodes by using a dehydrated nanotube titanic acid (DNTA)-polymer nanocomposite

L. Qian^*, F. Teng, Z. S. Jin, Z. J. Zhang, T. Zhang, Y. B. Hou, S. Y. Yang, X. R. Xu

^*此作品的通讯作者

科研成果: 期刊稿件 › 文章 › 同行评审

42 引用（Scopus）

摘要

In this paper, we have demonstrated that P-type dehydrated nanotube titanic acid (DNTA) can significantly enhance hole injection and transport in holes-only transport devices. In the low field region, the dominant conduction mechanism is injection limited. This gradually transitions to space charge limited current via trapped charge limited current with increasing applied voltages. Through fabricated and characterized organic light-emitting diodes (OLEDs) and by using a DNTA-poly(vinylcarbazole) (PVK) nanocomposite as the hole transport layer, we found that the performance of these devices was greatly improved with a higher luminance, an enhanced efficiency, and a lower turn-on voltage.

源语言	英语
页（从-至）	13928-13931
页数	4
期刊	Journal of Physical Chemistry B
卷	108
期	37
DOI	https://doi.org/10.1021/jp047593a
出版状态	已出版 - 16 9月 2004
已对外发布	是

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abstract = "In this paper, we have demonstrated that P-type dehydrated nanotube titanic acid (DNTA) can significantly enhance hole injection and transport in holes-only transport devices. In the low field region, the dominant conduction mechanism is injection limited. This gradually transitions to space charge limited current via trapped charge limited current with increasing applied voltages. Through fabricated and characterized organic light-emitting diodes (OLEDs) and by using a DNTA-poly(vinylcarbazole) (PVK) nanocomposite as the hole transport layer, we found that the performance of these devices was greatly improved with a higher luminance, an enhanced efficiency, and a lower turn-on voltage.",

author = "L. Qian and F. Teng and Jin, {Z. S.} and Zhang, {Z. J.} and T. Zhang and Hou, {Y. B.} and Yang, {S. Y.} and Xu, {X. R.}",

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AU - Qian, L.

AU - Teng, F.

AU - Jin, Z. S.

AU - Zhang, Z. J.

AU - Zhang, T.

AU - Hou, Y. B.

AU - Yang, S. Y.

AU - Xu, X. R.

PY - 2004/9/16

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N2 - In this paper, we have demonstrated that P-type dehydrated nanotube titanic acid (DNTA) can significantly enhance hole injection and transport in holes-only transport devices. In the low field region, the dominant conduction mechanism is injection limited. This gradually transitions to space charge limited current via trapped charge limited current with increasing applied voltages. Through fabricated and characterized organic light-emitting diodes (OLEDs) and by using a DNTA-poly(vinylcarbazole) (PVK) nanocomposite as the hole transport layer, we found that the performance of these devices was greatly improved with a higher luminance, an enhanced efficiency, and a lower turn-on voltage.

AB - In this paper, we have demonstrated that P-type dehydrated nanotube titanic acid (DNTA) can significantly enhance hole injection and transport in holes-only transport devices. In the low field region, the dominant conduction mechanism is injection limited. This gradually transitions to space charge limited current via trapped charge limited current with increasing applied voltages. Through fabricated and characterized organic light-emitting diodes (OLEDs) and by using a DNTA-poly(vinylcarbazole) (PVK) nanocomposite as the hole transport layer, we found that the performance of these devices was greatly improved with a higher luminance, an enhanced efficiency, and a lower turn-on voltage.

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Improved optoelectronic characteristics of light-emitting diodes by using a dehydrated nanotube titanic acid (DNTA)-polymer nanocomposite

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