Issue 19, 2009

Effect of potassium adsorption on the photochemical properties of titania nanotube arrays

Abstract

It is demonstrated that vertically-aligned titania nanotube planar arrays fabricated by electrochemical anodization using standard potassium-containing electrolytes invariably contain a significant amount of surface-adsorbed potassium ions, hitherto undetected, that affect the titania photoelectrochemical or PEC performance. Synchrotron-based near edge X-ray absorption fine structure (NEXAFS) spectroscopy reveals the strong ionic nature of surface potassium-titania bonds that alters the PEC performance over that of pure titania nanotubes through reduction of the external electrical bias needed to produce hydrogen at maximum efficiency. This result implies that the external electrical energy input required per liter of solar hydrogen produced with potassium-adsorbed titania nanotubes may be reduced. Tailoring the potassium content may thus be an alternative means to fine-tune the photoelectrochemical response of TiO2nanotube-based PEC electrodes.

Graphical abstract: Effect of potassium adsorption on the photochemical properties of titania nanotube arrays

Article information

Article type
Paper
Submitted
15 Dec 2008
Accepted
26 Feb 2009
First published
27 Mar 2009

J. Mater. Chem., 2009,19, 2963-2967

Effect of potassium adsorption on the photochemical properties of titania nanotube arrays

C. Richter, C. Jaye, E. Panaitescu, D. A. Fischer, L. H. Lewis, R. J. Willey and L. Menon, J. Mater. Chem., 2009, 19, 2963 DOI: 10.1039/B822501J

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