Friday, July 6, 2012

1207.1179 (A. Steindamm et al.)

Thickness dependent effects of an intermediate molecular blocking layer
on the optoelectronic characteristics of organic bilayer photovoltaic cells
   [PDF]

A. Steindamm, M. Brendel, A. K. Topczak, J. Pflaum
In this work we address the microscopic effects related to the implementation of a Bathophenanthroline (BPhen) exciton blocking layer (EBL) sandwiched between Ag cathode and molecular Diindenoperylene (DIP)/C60 bilayer of a photovoltaic cell. Complementary studies of current density, external quantum efficiency, and photoluminescence quenching for EBL thicknesses up to 50 nm indicate that Ag atoms are able to penetrate through the whole 35 nm thick C60 film into the crystalline DIP layer underneath, thereby enhancing exciton quenching if no blocking layer is applied. In contrast, an optimal trade-off between exciton blocking, suppression of metal penetration and electron transport is achieved for a 5 nm thick BPhen layer yielding an improvement of power conversion efficiency by more than a factor of 2.
View original: http://arxiv.org/abs/1207.1179

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