A Reversible Protonic Ceramic Cell with Symmetrically Designed Pr2NiO4+δ-Based Electrodes: Fabrication and Electrochemical Features

A Reversible Protonic Ceramic Cell with Symmetrically Designed Pr2NiO4+δ-Based Electrodes: Fabrication and Electrochemical Features

Reversible protonic ceramic cells (rPCCs) combine two different operation regimes, fuel cell and electrolysis cell modes, which allow reversible chemical-to-electrical energy conversion at reduced temperatures with high efficiency and performance. Here we present novel technological and materials sc...

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Main Authors: Artem Tarutin, Julia Lyagaeva, Andrey Farlenkov, Sergey Plaksin, Gennady Vdovin, Anatoly Demin, Dmitry Medvedev
Format: Article
Language:English
Published: MDPI AG 2018-12-01
Series:Materials
Subjects:
PCFCs/PCECs
Ruddlesden-Popper phases
symmetrical cells
proton-conducting electrolytes
Online Access:http://www.mdpi.com/1996-1944/12/1/118
id doaj-cceb26a617474661932635773bb65976
record_format Article
spelling doaj-cceb26a617474661932635773bb659762020-11-25T00:17:17ZengMDPI AGMaterials1996-19442018-12-0112111810.3390/ma12010118ma12010118A Reversible Protonic Ceramic Cell with Symmetrically Designed Pr2NiO4+δ-Based Electrodes: Fabrication and Electrochemical FeaturesArtem Tarutin0Julia Lyagaeva1Andrey Farlenkov2Sergey Plaksin3Gennady Vdovin4Anatoly Demin5Dmitry Medvedev6Laboratory of Electrochemical Devices Based on Solid Oxide Proton Electrolytes, Institute of High Temperature Electrochemistry, Yekaterinburg 620137, RussiaLaboratory of Electrochemical Devices Based on Solid Oxide Proton Electrolytes, Institute of High Temperature Electrochemistry, Yekaterinburg 620137, Russia Institute of Chemical Engineering, Ural Federal University, Yekaterinburg 620002, Russia Laboratory of Solid State Oxide Fuel Cells, Institute of High Temperature Electrochemistry, Yekaterinburg 620137, RussiaLaboratory of Electrochemical Devices Based on Solid Oxide Proton Electrolytes, Institute of High Temperature Electrochemistry, Yekaterinburg 620137, RussiaLaboratory of Electrochemical Devices Based on Solid Oxide Proton Electrolytes, Institute of High Temperature Electrochemistry, Yekaterinburg 620137, RussiaLaboratory of Electrochemical Devices Based on Solid Oxide Proton Electrolytes, Institute of High Temperature Electrochemistry, Yekaterinburg 620137, RussiaReversible protonic ceramic cells (rPCCs) combine two different operation regimes, fuel cell and electrolysis cell modes, which allow reversible chemical-to-electrical energy conversion at reduced temperatures with high efficiency and performance. Here we present novel technological and materials science approaches, enabling a rPCC with symmetrical functional electrodes to be prepared using a single sintering step. The response of the cell fabricated on the basis of P–N–BCZD|BCZD|PBN–BCZD (where BCZD = BaCe0.5Zr0.3Dy0.2O3−δ, PBN = Pr1.9Ba0.1NiO4+δ, P = Pr2O3, N = Ni) is studied at different temperatures and water vapor partial pressures (pH2O) by means of volt-ampere measurements, electrochemical impedance spectroscopy and distribution of relaxation times analyses. The obtained results demonstrate that symmetrical electrodes exhibit classical mixed-ionic/electronic conducting behavior with no hydration capability at 750 °C; therefore, increasing the pH2O values in both reducing and oxidizing atmospheres leads to some deterioration of their electrochemical activity. At the same time, the electrolytic properties of the BCZD membrane are improved, positively affecting the rPCC’s efficiency. The electrolysis cell mode of the rPCC is found to be more appropriate than the fuel cell mode under highly humidified atmospheres, since its improved performance is determined by the ohmic resistance, which decreases with pH2O increasing.http://www.mdpi.com/1996-1944/12/1/118PCFCs/PCECsRuddlesden-Popper phasessymmetrical cellsproton-conducting electrolytes
collection DOAJ
language English
format Article
sources DOAJ
author Artem Tarutin
Julia Lyagaeva
Andrey Farlenkov
Sergey Plaksin
Gennady Vdovin
Anatoly Demin
Dmitry Medvedev
spellingShingle Artem Tarutin
Julia Lyagaeva
Andrey Farlenkov
Sergey Plaksin
Gennady Vdovin
Anatoly Demin
Dmitry Medvedev
A Reversible Protonic Ceramic Cell with Symmetrically Designed Pr2NiO4+δ-Based Electrodes: Fabrication and Electrochemical Features
Materials
PCFCs/PCECs
Ruddlesden-Popper phases
symmetrical cells
proton-conducting electrolytes
author_facet Artem Tarutin
Julia Lyagaeva
Andrey Farlenkov
Sergey Plaksin
Gennady Vdovin
Anatoly Demin
Dmitry Medvedev
author_sort Artem Tarutin
title A Reversible Protonic Ceramic Cell with Symmetrically Designed Pr2NiO4+δ-Based Electrodes: Fabrication and Electrochemical Features
title_short A Reversible Protonic Ceramic Cell with Symmetrically Designed Pr2NiO4+δ-Based Electrodes: Fabrication and Electrochemical Features
title_full A Reversible Protonic Ceramic Cell with Symmetrically Designed Pr2NiO4+δ-Based Electrodes: Fabrication and Electrochemical Features
title_fullStr A Reversible Protonic Ceramic Cell with Symmetrically Designed Pr2NiO4+δ-Based Electrodes: Fabrication and Electrochemical Features
title_full_unstemmed A Reversible Protonic Ceramic Cell with Symmetrically Designed Pr2NiO4+δ-Based Electrodes: Fabrication and Electrochemical Features
title_sort reversible protonic ceramic cell with symmetrically designed pr2nio4+δ-based electrodes: fabrication and electrochemical features
publisher MDPI AG
series Materials
issn 1996-1944
publishDate 2018-12-01
description Reversible protonic ceramic cells (rPCCs) combine two different operation regimes, fuel cell and electrolysis cell modes, which allow reversible chemical-to-electrical energy conversion at reduced temperatures with high efficiency and performance. Here we present novel technological and materials science approaches, enabling a rPCC with symmetrical functional electrodes to be prepared using a single sintering step. The response of the cell fabricated on the basis of P–N–BCZD|BCZD|PBN–BCZD (where BCZD = BaCe0.5Zr0.3Dy0.2O3−δ, PBN = Pr1.9Ba0.1NiO4+δ, P = Pr2O3, N = Ni) is studied at different temperatures and water vapor partial pressures (pH2O) by means of volt-ampere measurements, electrochemical impedance spectroscopy and distribution of relaxation times analyses. The obtained results demonstrate that symmetrical electrodes exhibit classical mixed-ionic/electronic conducting behavior with no hydration capability at 750 °C; therefore, increasing the pH2O values in both reducing and oxidizing atmospheres leads to some deterioration of their electrochemical activity. At the same time, the electrolytic properties of the BCZD membrane are improved, positively affecting the rPCC’s efficiency. The electrolysis cell mode of the rPCC is found to be more appropriate than the fuel cell mode under highly humidified atmospheres, since its improved performance is determined by the ohmic resistance, which decreases with pH2O increasing.
topic PCFCs/PCECs
Ruddlesden-Popper phases
symmetrical cells
proton-conducting electrolytes
url http://www.mdpi.com/1996-1944/12/1/118
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