Light-driven generation of chlorine and hydrogen from brine using highly selective Ru/Ti oxide redox catalysts

L. McCafferty; C. O'Rourke; A. Mills; A. Kafizas; I. P. Parkin; J. A. Darr

Journal ArticleOPEN ACCESS

Light-driven generation of chlorine and hydrogen from brine using highly selective Ru/Ti oxide redox catalysts

McCafferty L
O'Rourke C
Mills A
et al.

Sustainable Energy and Fuels (2017) 1(2) 254-257

DOI: 10.1039/c6se00057f

4Citations

24Readers

Abstract

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.

Cite

CITATION STYLE

APA

McCafferty, L., O’Rourke, C., Mills, A., Kafizas, A., Parkin, I. P., & Darr, J. A. (2017). Light-driven generation of chlorine and hydrogen from brine using highly selective Ru/Ti oxide redox catalysts. Sustainable Energy and Fuels, 1(2), 254–257. https://doi.org/10.1039/c6se00057f

Light-driven generation of chlorine and hydrogen from brine using highly selective Ru/Ti oxide redox catalysts

Abstract

Cite

Register to see more suggestions