Photoelectron spectroscopy of the contact between the cathode and the active layers in plastic solar cells: The role of LiF

Abstract

The surfaces and electrode interfaces of a polymer blend used in prototype solar cells have been characterized with photoelectron spectroscopy. The polymer blend in question is a 1: 4 mixture of APFO-3: PCBM. Based on surface analysis of the pristine film we can conclude that the surface of the blend is a 1: 1 mixture of APFO-3 and PCBM. The electrode systems studied are the widely used Al and Al/LiF contacts. LiF prevents formation at the Al/organic interface of Al-organic complexes that destroy the π-conjugation. In addition to this, there are two other beneficial, thickness dependent, effects. Decomposition of LiF occurs for thin enough layers in which the LiF species are in contact with both the organic film and the Al atoms, which creates a low workfunction contact. For thicker (multi)layers, the dipole formed at the LiF/organic interface is retained as no decomposition of the LiF occurs upon Al deposition. © 2005 The Japan Society of Applied Physics.