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An in situ neutron diffraction measurement of the pressure-temperature evolution of a MgD2:TiD2 mixture (2010)
Journal Article
Moser, D., Bull, D., Cowpe, J., Roach, D., Ross, D., Noreus, D., & Tucker, M. (2010). An in situ neutron diffraction measurement of the pressure-temperature evolution of a MgD2:TiD2 mixture. High Pressure Research, 30(4), 643-652. https://doi.org/10.1080/08957959.2010.533664

The hydrogen storage capacity of Mg–Ti–H films is approximately five times that of conventional metal hydride electrodes in NiMH-batteries. Mg and Ti are considered to be immiscible in the bulk and the ambient pressure phase diagram of Mg and Ti in... Read More about An in situ neutron diffraction measurement of the pressure-temperature evolution of a MgD2:TiD2 mixture.

An in situ neutron diffraction measurement of the pressure-temperature evolution of a MgD2:TiD2 mixture (2010)
Journal Article
Moser, D., Bull, D., Cowpe, J., Roach, D., Ross, D., Noreus, D., & Tucker, M. (2010). An in situ neutron diffraction measurement of the pressure-temperature evolution of a MgD2:TiD2 mixture. High Pressure Research, 30(4), 643-652. https://doi.org/10.1080/08957959.2010.533664

The hydrogen storage capacity of Mg–Ti–H films is approximately five times that of conventional metal hydride electrodes in NiMH-batteries. Mg and Ti are considered to be immiscible in the bulk and the ambient pressure phase diagram of Mg and Ti in... Read More about An in situ neutron diffraction measurement of the pressure-temperature evolution of a MgD2:TiD2 mixture.

Pressure-dependent deuterium reaction pathways in the Li-N-D system (2010)
Journal Article
Bull, D., Weidner, E., Shabalin, I., Telling, M., Jewell, C., Gregory, D., & Ross, D. (2010). Pressure-dependent deuterium reaction pathways in the Li-N-D system. Physical Chemistry Chemical Physics, 12, 2089-2097. https://doi.org/10.1039/b903821n

Neutron diffraction data from in situ deuteration and dedeuteration of Li3N are presented under different pressure regimes, whereby reaction pathways differing from the widely reported stoichiometric pathway of Li3N + 2D22Li2ND + LiD + D22LiND2 + 2... Read More about Pressure-dependent deuterium reaction pathways in the Li-N-D system.

Pressure-dependent deuterium reaction pathways in the Li-N-D system (2010)
Journal Article
Bull, D., Weidner, E., Shabalin, I., Telling, M., Jewell, C., Gregory, D., & Ross, D. (2010). Pressure-dependent deuterium reaction pathways in the Li-N-D system. Physical Chemistry Chemical Physics, 12, 2089-2097. https://doi.org/10.1039/b903821n

Neutron diffraction data from in situ deuteration and dedeuteration of Li3N are presented under different pressure regimes, whereby reaction pathways differing from the widely reported stoichiometric pathway of Li3N + 2D22Li2ND + LiD + D22LiND2 + 2... Read More about Pressure-dependent deuterium reaction pathways in the Li-N-D system.