Formation of NaCl-type monodeuteride LaD by the disproportionation reaction of LaD2

Formation of NaCl-type monodeuteride LaD by the disproportionation reaction of LaD2

Previous x-ray diffraction measurements revealed the pressure-induced decomposition of an fcc LaH2.3 into H-rich and H-poor fcc phases around 11 GPa. The present neutron diffraction measurements on LaD2 confirm the formation of NaCl-type LaD as a counterpart of the D-rich LaD2+δ by disproportionatio...

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Veröffentlicht in:Phys. Rev. Lett 2012-05, Vol.108 (20), p.205501-205501
Hauptverfasser: Machida, A, Honda, M, Hattori, T, Sano-Furukawa, A, Watanuki, T, Katayama, Y, Aoki, K, Komatsu, K, Arima, H, Ohshita, H, Ikeda, K, Suzuya, K, Otomo, T, Tsubota, M, Doi, K, Ichikawa, T, Kojima, Y, Kim, D Y
Format: Artikel
Sprache:eng
Schlagworte:
catalysis (heterogeneous), solar (photovoltaic), phonons, thermoelectric, energy storage (including batteries and capacitors), hydrogen and fuel cells, superconductivity, charge transport, mesostructured materials, materials and chemistry by design, synthesis (novel materials)
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Zusammenfassung:Previous x-ray diffraction measurements revealed the pressure-induced decomposition of an fcc LaH2.3 into H-rich and H-poor fcc phases around 11 GPa. The present neutron diffraction measurements on LaD2 confirm the formation of NaCl-type LaD as a counterpart of the D-rich LaD2+δ by disproportionation. First-principles enthalpy and lattice dynamic calculations demonstrate that the NaCl-type LaH is stabilized at high pressures and can be recovered at ambient conditions. Finding the NaCl-type LaH will pave the way for investigations on the site-dependent nature of hydrogen-metal interactions.
ISSN:1079-7114
DOI:10.1103/PhysRevLett.108.205501