Materials challenges toward proton-conducting oxide fuel cells: a critical review.
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Crystal structure and proton conductivity of BaSn0.6Sc0.4O3-δ : insights from neutron powder diffraction and solid-state NMR spectroscopy.Demonstrating the potential of yttrium-doped barium zirconate electrolyte for high-performance fuel cells.In situ studies of solvothermal synthesis of energy materials.Steam electrolysis by solid oxide electrolysis cells (SOECs) with proton-conducting oxides.Recent Progress on Advanced Materials for Solid-Oxide Fuel Cells Operating Below 500 °C.Proton Transfer in Molten Lithium Carbonate: Mechanism and Kinetics by Density Functional Theory Calculations.Synthesis of phase pure praseodymium barium copper iron oxide.Proton trapping in yttrium-doped barium zirconate.Structural isomerism leading to variable proton conductivity in indium(III) isophthalic acid based frameworks.Bulk protonic conductivity in a cephalopod structural protein.Acceptor doping in the proton conductor SrZrO3.Lattice strain effects on doping, hydration and proton transport in scheelite-type electrolytes for solid oxide fuel cells.Enhanced Proton Conductivity in Y-Doped BaZrO3 via Strain Engineering.Electrochemical-reaction-induced synaptic plasticity in MoOx-based solid state electrochemical cells.The influence of cation ordering, oxygen vacancy distribution and proton siting on observed properties in ceramic electrolytes: the case of scandium substituted barium titanate.Electrocatalysis-induced elasticity modulation in a superionic proton conductor probed by band-excitation atomic force microscopy.Location of deuterium sites at operating temperature from neutron diffraction of BaIn0.6Ti0.2Yb0.2O2.6-n(OH)2n, an electrolyte for proton-solid oxide fuel cells.Protons crossing triple phase boundaries based on a metal catalyst, Pd or Ni, and barium zirconate.Triple-conducting layered perovskites as cathode materials for proton-conducting solid oxide fuel cells.Unprecedented ferrocene–quinoline conjugates: facile proton conduction via 1D helical water chains and a selective chemosensor for Zn(ii) ions in waterPerformance and DRT analysis of P-SOFCs fabricated using new phase inversion combined tape casting technologyA high performance cathode for proton conducting solid oxide fuel cellsFirst-principles study of O2 reduction on BaZr1−xCoxO3 cathodes in protonic-solid oxide fuel cellsSelf-assembled one dimensional functionalized metal–organic nanotubes (MONTs) for proton conductionNanoscale order in the frustrated mixed conductor La5.6WO12−δStructural change of NaO1/2–WO3–NbO5/2–LaO3/2–PO5/2 glass induced by electrochemical substitution of sodium ions with protonsElectrochemical substitution of sodium ions with protons in phosphate glass to fabricate pure proton conducting glass at intermediate temperatures
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Materials challenges toward proton-conducting oxide fuel cells: a critical review.
description
article científic
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article scientifique
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articolo scientifico
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artigo científico
@pt
bilimsel makale
@tr
scientific article published on 06 September 2010
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vedecký článok
@sk
vetenskaplig artikel
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videnskabelig artikel
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vědecký článek
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name
Materials challenges toward proton-conducting oxide fuel cells: a critical review.
@en
Materials challenges toward proton-conducting oxide fuel cells: a critical review.
@nl
type
label
Materials challenges toward proton-conducting oxide fuel cells: a critical review.
@en
Materials challenges toward proton-conducting oxide fuel cells: a critical review.
@nl
prefLabel
Materials challenges toward proton-conducting oxide fuel cells: a critical review.
@en
Materials challenges toward proton-conducting oxide fuel cells: a critical review.
@nl
P2093
P356
P1476
Materials challenges toward proton-conducting oxide fuel cells: a critical review.
@en
P2093
Daniele Pergolesi
Emiliana Fabbri
Enrico Traversa
P304
P356
10.1039/B902343G
P577
2010-09-06T00:00:00Z