In this section
@article{McCafferty:2017:10.1039/C6SE00057F,
author = {McCafferty, L and O'Rourke, C and Mills, A and Kafizas, A and Parkin, IP and Darr, JA},
doi = {10.1039/C6SE00057F},
journal = {Sustainable Energy & Fuels},
pages = {254--257},
title = {Light-driven generation of chlorine and hydrogen from brine using highly selective Ru/Ti oxide redox catalysts},
url = {http://dx.doi.org/10.1039/C6SE00057F},
volume = {1},
year = {2017}
}
TY - JOUR
AB - Ultrafine ruthenium–titanium oxide catalysts were directly produced using a continuous hydrothermal flow synthesis process and assessed as chloride oxidation catalysts. Selectivity towards chlorine (over oxygen) evolution was shown to generally increase with decreasing ruthenium content. The optimum catalyst was then used to make an anode for a light-driven brine-splitting demonstrator device to produce hydrogen and chlorine gases.
AU - McCafferty,L
AU - O'Rourke,C
AU - Mills,A
AU - Kafizas,A
AU - Parkin,IP
AU - Darr,JA
DO - 10.1039/C6SE00057F
EP - 257
PY - 2017///
SN - 2398-4902
SP - 254
TI - Light-driven generation of chlorine and hydrogen from brine using highly selective Ru/Ti oxide redox catalysts
T2 - Sustainable Energy & Fuels
UR - http://dx.doi.org/10.1039/C6SE00057F
VL - 1
ER -
Dr. Andreas Kafizas
Leader - Solar Coatings Group
e-mail: a.kafizas@imperial.ac.uk
tel: +44(0)20 7594 6752
twitter: @CoatingsSolar