Combined soft and hard X-ray ambient pressure photoelectron spectroscopy studies of semiconductor/electrolyte interfaces

The development of solar fuel generating materials would greatly benefit from a molecular level understanding of the semiconductor/electrolyte interface and changes in the interface induced by an applied potential and illumination by solar light. Ambient pressure photoelectron spectroscopy technique...

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Veröffentlicht in:	Journal of electron spectroscopy and related phenomena 2017-11, Vol.221 (C), p.106-115
Hauptverfasser:	Starr, David E., Favaro, Marco, Abdi, Fatwa F., Bluhm, Hendrik, Crumlin, Ethan J., van de Krol, Roel
Format:	Artikel
Sprache:	eng
Schlagworte:	Ambient pressure HAXPES INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY Photoelectron spectroscopy Solid liquid interface
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container_end_page	115
container_issue	C
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container_title	Journal of electron spectroscopy and related phenomena
container_volume	221
creator	Starr, David E. Favaro, Marco Abdi, Fatwa F. Bluhm, Hendrik Crumlin, Ethan J. van de Krol, Roel
description	The development of solar fuel generating materials would greatly benefit from a molecular level understanding of the semiconductor/electrolyte interface and changes in the interface induced by an applied potential and illumination by solar light. Ambient pressure photoelectron spectroscopy techniques with both soft and hard X-rays, AP-XPS and AP-HAXPES respectively, have the potential to markedly contribute to this understanding. In this paper we initially provide two examples of current challenges in solar fuels material development that AP-XPS and AP-HAXPES can directly address. This will be followed by a brief description of the distinguishing and complementary characteristics of soft and hard X-ray AP-XPS and AP-HAXPES and best approaches to achieving monolayer sensitivity in solid/aqueous electrolyte studies. In particular we focus on the detection of surface adsorbed hydroxyl groups in the presence of aqueous hydroxide anions in the electrolyte, a common situation when investigating photoanodes for solar fuel generating applications. The paper concludes by providing an example of a combined AP-XPS and AP-HAXPES study of a semiconductor/aqueous electrolyte interface currently used in water splitting devices specifically the BiVO4/aqueous potassium phosphate electrolyte interface.
doi_str_mv	10.1016/j.elspec.2017.05.003
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subjects	Ambient pressure HAXPES INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY Photoelectron spectroscopy Solid liquid interface
title	Combined soft and hard X-ray ambient pressure photoelectron spectroscopy studies of semiconductor/electrolyte interfaces
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