Atomistic simulations of thiol-terminated modifiers for hybrid photovoltaic interfaces

Small aromatic molecules such as benzene or pyridine derivatives are often used as interface modifiers (IMs) at polymer/metal oxide hybrid interfaces. We performed a theoretical investigation on prototypical thiolterminated IMs aimed at improving the photovoltaic performances of poly(3-hexylthiophene)/TiO2 devices. By means of first-principles calculations in the framework of the density functional theory we investigate 3furanthiol (3FT), 4-mercaptobenzoicacid (4MB), and 6-isoquinolinethiol (6QT) molecules. We discuss the role of these molecules as modifiers alternative to 4-mercaptopyridine (4MP) which has recently shown to induce a large improvement in the overall power conversion efficiency of mesoporous films of TiO2 infiltrated by poly(3-hexylthiophene). The IMs investigated are expected to keep the beneficial features of 4MP giving at the same time the possibility to further tune the interlayer properties (e.g., its thickness, stability, and density). Dense interlayers of 6QT turn out to be slightly unstable since the titania substrate induces a compressive strain in the molecular film. On the contrary, we predict very stable films for both 3FT and4MB molecules, which makes them interesting candidates for future experimental investigations. (C) 2013 Elsevier B.V. All rights reserved.