有机器件中光到电流转换的特征

2007 International Conference on Numerical Simulation of Optoelectronic Devices Pub Date : 2007-09-01 DOI:10.1109/NUSOD.2007.4349023

Ajay K. Pandey, J. Nunzi

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引用次数: 0

摘要

由于易于制造和适合大面积应用，有机半导体在轻量化和柔性电子器件的发展中产生了巨大的兴趣。然而，这些共轭材料还有许多未被探索的可能性。我们在这里讨论了一种新的结构，它允许从rubrene/fullerene异质结构中有效地集成光和电流功能到一个高效的有机双器件(ODD)6'7中。在am1.5照明下，当短路电流密度为5.3 mA/cm2，开路电压约为1v时，太阳能转换效率达到3%。令人惊讶的是，EL导通电压低于IV，约为rubrene带隙(2.2 eV)的一半，这无法用目前的有机半导体电荷注入模型来解释。根据所谓的俄歇喷泉机制提出了一种物理解释，我们可以将其实现到分子异质结中。

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Features of light to current transformations in organic devices

Organic semiconductors generate a tremendous interest in the development of light weight and flexible electronic devices owing to their ease of fabrication and suitability to large area applications. However, there are many possibilities left unexplored for these conjugated materials. We discuss here a new structure that permits efficient integration of both light and current generation functions from a rubrene/fullerene heterostructure into an efficient Organic Dual Device (ODD)6'7. The solar power conversion efficiency reaches 3 % with 5.3 mA/cm2 short-circuit current density and almost 1 V open circuit voltage under AM 1.5 illumination. Surprisingly, the EL turn-on voltage is below IV, about half of the rubrene band gap (2.2 eV), that cannot be explained using current models of charge injection into organic semiconductors. A physical interpretation is proposed in terms of the so-called Auger fountain mechanism that we could implement into our molecular heterojunction.

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2007 International Conference on Numerical Simulation of Optoelectronic Devices

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