| Literature DB >> 26734947 |
Christopher J Wood1, Gareth H Summers1, Charlotte A Clark1, Nicolas Kaeffer2, Maximilian Braeutigam3, Lea Roberta Carbone4, Luca D'Amario5, Ke Fan6, Yoann Farré7, Stéphanie Narbey8, Frédéric Oswald8, Lee A Stevens9, Christopher D J Parmenter10, Michael W Fay10, Alessandro La Torre10, Colin E Snape11, Benjamin Dietzek3, Danilo Dini4, Leif Hammarström5, Yann Pellegrin7, Fabrice Odobel7, Licheng Sun6, Vincent Artero2, Elizabeth A Gibson1.
Abstract
We investigated a range of different mesoporous NiO electrodes prepared by different research groups and private firms in Europe to determine the parameters which influence good quality photoelectrochemical devices. This benchmarking study aims to solve some of the discrepancies in the literature regarding the performance of p-DSCs due to differences in the quality of the device fabrication. The information obtained will lay the foundation for future photocatalytic systems based on sensitized NiO so that new dyes and catalysts can be tested with a standardized material. The textural and electrochemical properties of the semiconducting material are key to the performance of photocathodes. We found that both commercial and non-commercial NiO gave promising solar cell and water-splitting devices. The NiO samples which had the two highest solar cell efficiency (0.145% and 0.089%) also gave the best overall theoretical H2 conversion.Entities:
Year: 2016 PMID: 26734947 DOI: 10.1039/c5cp05326a
Source DB: PubMed Journal: Phys Chem Chem Phys ISSN: 1463-9076 Impact factor: 3.676