In-situ Photoelectron Microspectroscopy and Imaging of Electrochemical Processes at the Electrodes of a Self-driven Cell

The challenges in development of solid oxide fuel cells (SOFCs) are reducing their dimensions and increasing their efficiency and durability, which requires physicochemical characterization at micro-scales of the device components during operation conditions. Recently, the unique potential of scanni...

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Veröffentlicht in:	Scientific reports 2013-10, Vol.3 (1), p.2848-2848, Article 2848
Hauptverfasser:	Bozzini, Benedetto, Amati, Matteo, Gregoratti, Luca, Kiskinova, Maya
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Schlagworte:	639/301/299/161/893 639/301/299/886 639/638/542/971 639/766/930/12 Electrochemistry Fuel cells Humanities and Social Sciences multidisciplinary Oxidation Scanning Science Solid oxide fuel cells
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creator	Bozzini, Benedetto Amati, Matteo Gregoratti, Luca Kiskinova, Maya
description	The challenges in development of solid oxide fuel cells (SOFCs) are reducing their dimensions and increasing their efficiency and durability, which requires physicochemical characterization at micro-scales of the device components during operation conditions. Recently, the unique potential of scanning photoelectron microscopy (SPEM) has been demonstrated by in-situ studies of externally-driven SOFCs, which mimic real devices. Here we overcome the gap between model and real systems using a single-chamber Ni\|YSZ\|Mn SOFC, supporting a range of self-driven electrochemical reactions in variable gas environments and temperatures. The reported SPEM results, obtained during spontaneous electrochemical processes occurring in reactive gas ambient, demonstrate the chemical evolution of electrodic material, in particular the lateral distribution of the oxidation state and the induced local potential, clearly marking out the electrochemically most active micro-regions of the Ni anode.
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subjects	639/301/299/161/893 639/301/299/886 639/638/542/971 639/766/930/12 Electrochemistry Fuel cells Humanities and Social Sciences multidisciplinary Oxidation Scanning Science Solid oxide fuel cells
title	In-situ Photoelectron Microspectroscopy and Imaging of Electrochemical Processes at the Electrodes of a Self-driven Cell
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