Study of the effect of changing the microstructure of titania layers on composite solar cell performance

Abstract

This paper reports a study of the microstructures of titania thin films fabricated by two methods; doctor blade casting and glancing angle deposition (GLAD). The microstructures were characterised by a broad range of techniques, including SEM, HRTEM, and XRD. Porous films with a three-dimensional network of interconnected TiO 2 particles were obtained using the doctor blade technique. GLAD was used to fabricate well-defined columnar structures. The power efficiency of composite solar cells (CSCs) based on doctor-bladed titanium dioxide and a spin coat MEH-PPV layer is reproducibly greater than 0.5% at 800 W/m 2, using a solar simulator and 420 nm UV blocking filter, with typical values J sc = 14.3 A/m 2, V oc = 0.79 V and FF = 36%. This performance is significantly better than that reported for similar devices by other groups [1,2]. Under the same illumination conditions, preliminary results for CSCs based on GLAD titanium dioxide gave at best efficiencies of only 0.08%, with J sc = 2.4 A/m 2, V oc = 0.61 V and FF = 43%. We discuss how the morphology, crystal structure and optical absorption properties of the two types of TiO 2 affect the overall device performance.