Institut Laue-Langevin (ILL) (2016).įrick, B., Combet, J. Study on the dynamics of hydride ion conduction in oxyhydrides. Kobayashi, G., Laurent, B., Bresser, D., Bernhard, F. Recent backscattering instrument developments at the ILL and SNS. VESTA 3 for three-dimensional visualization of crystal, volumetric and morphology data. Three-dimensional visualization in powder diffraction. High-throughput powder diffraction measurement system consisting of multiple MYTHEN detectors at beamline BL02B2 of SPring-8. Ambient pressure synthesis and H – conductivity of LaSrLiH 2O 2. Structure and ionic transport of PbSnF 4 superionic conductor. Solid-state ionics: high copper ion conductivity of the system CuCl ‐ CuI ‐ RbCl. Solids with high ionic conductivity in group 1 halide systems. High-conductivity solid electrolytes: MAg 4I 5.
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Formation of defects and their effects on hydride ion transport properties in a series of K 2NiF 4-type oxyhydrides. New insights into hydride bonding, dynamics, and migration in La 2LiHO 3 oxyhydride.
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Oxide-ion conduction in Ba 2In 2O 5 and Ba 3In 2MO 8 (M=Ce, Hf, or Zr). Hydride conductivity in an anion-ordered fluorite structure LnHO with an enlarged bottleneck. Characteristic fast H − ion conduction in oxygen-substituted lanthanum hydride. Synthesis and H − conductivity of a new oxyhydride Ba 2YHO 3 with anion-ordered rock-salt layers. Nawaz, H., Takeiri, F., Kuwabara, A., Yonemura, M. Ba 2ScHO 3: H – conductive layered oxyhydride with H – site selectivity. The effect of cation size on hydride-ion conduction in LnSrLiH 2O 2 (Ln = La, Pr, Nd, Sm, Gd) oxyhydrides. Synthesis, crystal structure, and ionic conductivity of hydride ion-conducting Ln 2LiHO 3 (Ln = La, Pr, Nd) oxyhydrides. High H − ionic conductivity in barium hydride. Large, soft, and polarizable hydride ions sneak around in an oxyhydride. Solid-state protonic conductors: principles, properties, progress and prospects. Conductivity studies of dense yttrium-doped BaZrO 3 sintered at 1325☌. Proton conduction in sintered oxides based on BaCeO 3. On the development of proton conducting polymer membranes for hydrogen and methanol fuel cells. Approaches and recent development of polymer electrolyte membranes for fuel cells operating above 100 ☌. Solid acid membranes for high temperature (>140° C) proton exchange membrane fuel cells. Such a remarkable H – conducting nature at intermediate temperatures is anticipated to be important for energy and chemical conversion devices. Increasing the temperature results in the disappearance of the vacancy ordering, triggering a high and essentially temperature-independent H – conductivity of more than 0.01 S cm –1 above 315 ☌. Here, we report a K 2NiF 4-type Ba–Li oxyhydride with an appreciable amount of hydrogen vacancies that presents long-range order at room temperature. Alternatively, hydride ions (H –), that is, monovalent anions with high polarizability, can be considered a promising charge carrier that facilitates fast ionic conduction in solids. Although using proton (H +) conductors is an attractive choice, practical conductivity at intermediate temperatures (200–400 ☌), which would be ideal for most energy and chemical conversion applications, remains a challenge. Hydrogen transport in solids, applied in electrochemical devices such as fuel cells and electrolysis cells, is key to sustainable energy societies.
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