Hydrogen in oxides

T Norby, M Widerøe, R Glöckner, Y Larring - Dalton transactions, 2004 - pubs.rsc.org
The paper reviews the history and present understanding of protons in oxides; their defect
chemistry, thermodynamics, and transport. Focus is put on correlations between hydration …

An oxyhydride of BaTiO3 exhibiting hydride exchange and electronic conductivity

Y Kobayashi, OJ Hernandez, T Sakaguchi, T Yajima… - Nature materials, 2012 - nature.com
In oxides, the substitution of non-oxide anions (F−, S2−, N3− and so on) for oxide introduces
many properties, but the least commonly encountered substitution is where the hydride …

How does moisture affect the physical property of memristance for anionic–electronic resistive switching memories?

F Messerschmitt, M Kubicek… - Advanced Functional …, 2015 - Wiley Online Library
Memristors based on anionic–electronic resistive switches represent a promising alternative
to transistor‐based memories because of their scalability and low power consumption. To …

The role of point defects and defect gradients in flash sintering of perovskite oxides

W Rheinheimer, XL Phuah, H Wang, F Lemke… - Acta Materialia, 2019 - Elsevier
The present study investigates the impact of point defects and their redistribution on the flash
sintering process. Strontium titanate was chosen as a model system for the group of …

Chemical looping processes—particle characterization, ionic diffusion-reaction mechanism and reactor engineering

L Zeng, S Luo, D Sridhar, LS Fan - Reviews in chemical engineering, 2012 - degruyter.com
The chemical looping strategy for fossil energy applications promises to achieve an efficient
energy conversion system for electricity, liquid fuels, hydrogen, and/or chemical generation …

Oxygen and hydrogen separation membranes based on dense ceramic conductors

ML Fontaine, T Norby, Y Larring, T Grande… - Membrane science and …, 2008 - Elsevier
Publisher Summary This chapter discusses oxygen and hydrogen separation membranes
based on dense ceramic conductors. The theoretical basis for understanding the transport …

A proton-conducting In3+-doped SnP2O7 electrolyte for intermediate-temperature fuel cells

M Nagao, A Takeuchi, P Heo, T Hibino… - … and Solid-State …, 2006 - iopscience.iop.org
We report proton conduction in-doped in the temperature range from, and the performance
of a-air fuel cell using this material as the electrolyte. The proton conductivity of-doped was …

Optimization of La0.2Sr0.7–xCaxTi0.95Fe0.05O3−δ Fuel Electrode Stoichiometry for Solid Oxide Fuel-Cell Application

S Paydar, K Kooser, P Möller… - ACS Applied Energy …, 2022 - ACS Publications
Development of active ceramic hydrogen electrodes with high stability is an important
challenge for developing solid oxide fuel cells (SOFC). Herein, a set of cubic perovskite-type …

Oxide muonics: II. Modelling the electrical activity of hydrogen in wide-gap and high-permittivity dielectrics

SFJ Cox, JL Gavartin, JS Lord, SP Cottrell… - Journal of Physics …, 2006 - iopscience.iop.org
Following the prediction and confirmation that interstitial hydrogen forms shallow donors in
zinc oxide, inducing electronic conductivity, the question arises as to whether it could do so …

Proton-assisted redox-based three-terminal memristor for synaptic device applications

L Liu, PA Dananjaya, MY Chee, GJ Lim… - … Applied Materials & …, 2023 - ACS Publications
Emerging technologies, ie, spintronics, 2D materials, and memristive devices, have been
widely investigated as the building block of neuromorphic computing systems. Three …