有机半导体光伏二极管中的超快长程电荷分离。

Ultrafast long-range charge separation in organic semiconductor photovoltaic diodes.

机构信息

Cavendish Laboratory, University of Cambridge, Cambridge, UK.

出版信息

Science. 2014 Jan 31;343(6170):512-6. doi: 10.1126/science.1246249. Epub 2013 Dec 12.

Abstract

Understanding the charge-separation mechanism in organic photovoltaic cells (OPVs) could facilitate optimization of their overall efficiency. Here we report the time dependence of the separation of photogenerated electron hole pairs across the donor-acceptor heterojunction in OPV model systems. By tracking the modulation of the optical absorption due to the electric field generated between the charges, we measure ~200 millielectron volts of electrostatic energy arising from electron-hole separation within 40 femtoseconds of excitation, corresponding to a charge separation distance of at least 4 nanometers. At this separation, the residual Coulomb attraction between charges is at or below thermal energies, so that electron and hole separate freely. This early time behavior is consistent with charge separation through access to delocalized π-electron states in ordered regions of the fullerene acceptor material.

摘要

了解有机光伏电池（OPV）中的电荷分离机制可以促进其整体效率的优化。在这里，我们报告了在 OPV 模型系统中，光生电子空穴对在给体-受体异质结中分离的时间依赖性。通过跟踪由于电荷之间产生的电场调制引起的光学吸收，我们在激发后 40 飞秒内测量到了 200 毫电子伏特的静电能，这对应于至少 4 纳米的电荷分离距离。在这种分离下，电荷之间的剩余库仑吸引力处于或低于热能，因此电子和空穴可以自由分离。这种早期行为与通过进入富勒烯受体材料有序区域的离域π电子态来实现电荷分离一致。

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有机半导体光伏二极管中的超快长程电荷分离。

Ultrafast long-range charge separation in organic semiconductor photovoltaic diodes.

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