| Literature DB >> 26288056 |
Bradley A MacLeod1, Noah E Horwitz1, Erin L Ratcliff2, Judith L Jenkins2, Neal R Armstrong2, Anthony J Giordano3, Peter J Hotchkiss3, Seth R Marder3, Charles T Campbell1, David S Ginger1.
Abstract
We use electroabsorption spectroscopy to measure the change in built-in potential (VBI) across the polymer photoactive layer in diodes where indium tin oxide electrodes are systematically modified using dipolar phosphonic acid self-assembled monolayers (SAMs) with various dipole moments. We find that VBI scales linearly with the work function (Φ) of the SAM-modified electrode over a wide range when using a solution-coated poly(p-phenylenevinylene) derivative as the active layer. However, we measure an interfacial parameter of S = eΔVBI/ΔΦ < 1, suggesting that these ITO/SAM/polymer interfaces deviate from the Schottky-Mott limit, in contrast to what has previously been reported for a number of ambient-processed organic-on-electrode systems. Our results suggest that the energetics at these ITO/SAM/polymer interfaces behave more like metal/organic interfaces previously studied in UHV despite being processed from solution.Entities:
Keywords: OPV; Super Yellow; built-in potential; interface; organic photovoltaics; oxide; phosphonic acids; self-assembled monolayers
Year: 2012 PMID: 26288056 DOI: 10.1021/jz300283h
Source DB: PubMed Journal: J Phys Chem Lett ISSN: 1948-7185 Impact factor: 6.475