화학공학소재연구정보센터
Journal of Colloid and Interface Science, Vol.465, 208-214, 2016
Inkjet printed highly porous TiO2 films for improved electrical properties of photoanode
The aim of presented work is to show the improvements obtained in the properties of TiO2 films for dye sensitized solar cells fabricated by inkjet printing using an innovative methodology. We describe the development and properties of TiO2-based inks used in a lab-scale printer, testing various commercial TiO2 pastes. The porosity of the deposited inkjet printed TiO2 films is much higher than using the conventional "doctor blade" deposition technique, as the ink solvent evaporates during the droplet fly from the nozzle to the substrate due to its picoliter volume and the applied heating of a printing stage (70 degrees C). Thanks to higher surface area, the dye sensitized solar cells incorporating inkjet printed TiO2 film gave higher efficiencies (eta(max) approximate to 3.06%) than the more compact films obtained by the "doctor blade" method (eta(max) approximate to 2.56%). Furthermore, electrochemical analysis indicates that for whole tested thickness range, the inkjet printed layers have higher effective electron diffusion length indicating their better transport properties. (C) 2015 Elsevier Inc. All rights reserved.