Search Results - "Humphries, Terry"

Producing Alkali Metal Hydrides from Hydroxides by Ibrahim, Ainee, Paskevicius, Mark, Humphries, Terry D., Buckley, Craig E.

“…In this study, a novel method for producing different alkali metal hydrides (NaH, KH, RbH, and CsH) from their corresponding metal hydroxides (NaOH, KOH, RbOH,…”
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Future perspectives of thermal energy storage with metal hydrides by Manickam, Kandavel, Mistry, Priyen, Walker, Gavin, Grant, David, Buckley, Craig E., Humphries, Terry D., Paskevicius, Mark, Jensen, Torben, Albert, Rene, Peinecke, Kateryna, Felderhoff, Michael

“…Thermochemical energy storage materials have advantage of much higher energy densities compared to latent or sensible heat storage materials. Metal hydrides…”
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Materials for hydrogen-based energy storage – past, recent progress and future outlook by Hirscher, Michael, Yartys, Volodymyr A., Baricco, Marcello, Bellosta von Colbe, Jose, Blanchard, Didier, Bowman, Robert C., Broom, Darren P., Buckley, Craig E., Chang, Fei, Chen, Ping, Cho, Young Whan, Crivello, Jean-Claude, Cuevas, Fermin, David, William I.F., de Jongh, Petra E., Denys, Roman V., Dornheim, Martin, Felderhoff, Michael, Filinchuk, Yaroslav, Froudakis, George E., Grant, David M., Gray, Evan MacA, Hauback, Bjørn C., He, Teng, Humphries, Terry D., Jensen, Torben R., Kim, Sangryun, Kojima, Yoshitsugu, Latroche, Michel, Li, Hai-Wen, Lototskyy, Mykhaylo V., Makepeace, Joshua W., Møller, Kasper T., Naheed, Lubna, Ngene, Peter, Noréus, Dag, Nygård, Magnus Moe, Orimo, Shin-ichi, Paskevicius, Mark, Pasquini, Luca, Ravnsbæk, Dorthe B., Veronica Sofianos, M., Udovic, Terrence J., Vegge, Tejs, Walker, Gavin S., Webb, Colin J., Weidenthaler, Claudia, Zlotea, Claudia

“…Globally, the accelerating use of renewable energy sources, enabled by increased efficiencies and reduced costs, and driven by the need to mitigate the effects…”
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Thermodynamic destablization of SrH2 using Al for the next generation of high temperature thermal batteries by Humphries, Terry D., Paskevicius, Mark, Alamri, Ali, Buckley, Craig E.

“…•The SrH2 and 2Al system was studied for thermochemical energy storage applications.•Thermodynamic destablization was observed compared to pure strontium…”
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Rare Earth Borohydrides—Crystal Structures and Thermal Properties by Frommen, Christoph, Sørby, Magnus, Heere, Michael, Humphries, Terry, Olsen, Jørn, Hauback, Bjørn

“…Rare earth (RE) borohydrides have received considerable attention during the past ten years as possible hydrogen storage materials due to their relatively high…”
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Hydroxylated closo-Dodecaborates M2B12(OH)12 (M = Li, Na, K, and Cs); Structural Analysis, Thermal Properties, and Solid-State Ionic Conductivity by Jørgensen, Mathias, Jensen, Steffen R.H, Humphries, Terry D, Rowles, Matthew R, Sofianos, Maria V, Buckley, Craig E, Jensen, Torben R, Paskevicius, Mark

“…Closo-borates and derivatives thereof have shown great potential as electrolyte materials for all-solid-state batteries owing to their exceptional ionic…”
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Exploring halide destabilised calcium hydride as a high-temperature thermal battery by Sofianos, M. Veronica, Randall, Samuel, Paskevicius, Mark, Aguey-Zinsou, Kondo-Francois, Rowles, Matthew R., Humphries, Terry D., Buckley, Craig E.

“…CaH2 is a metal hydride with a high energy density that decomposes around 1100 °C at 1 bar of H2 pressure. Due to this high decomposition temperature, it is…”
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High-temperature thermochemical energy storage using metal hydrides: Destabilisation of calcium hydride with silicon by Griffond, Arnaud C.M., Sofianos, M. Veronica, Sheppard, Drew A., Humphries, Terry D., Sargent, Anna-Lisa, Dornheim, Martin, Aguey-Zinsou, Kondo-Francois, Buckley, Craig E.

“…The thermochemical energy storage properties of calcium hydride (CaH2) destabilised with either silicon (Si) or CaxSiy compounds at various molar ratios, were…”
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Metallic and complex hydride-based electrochemical storage of energy by Cuevas, Fermin, Amdisen, Mads B, Baricco, Marcello, Buckley, Craig E, Cho, Young Whan, de Jongh, Petra, de Kort, Laura M, Grinderslev, Jakob B, Gulino, Valerio, Hauback, Bjørn C, Heere, Michael, Humphries, Terry, Jensen, Torben R, Kim, Sangryun, Kisu, Kazuaki, Lee, Young-Su, Li, Hai-Wen, Mohtadi, Rana, Møller, Kasper T, Ngene, Peter, Noréus, Dag, Orimo, Shin-Ichi, Paskevicius, Mark, Polanski, Marek, Sartori, Sabrina, Skov, Lasse N, Sørby, Magnus H, Wood, Brandon C, Yartys, Volodymyr A, Zhu, Min, Latroche, Michel

“…The development of efficient storage systems is one of the keys to the success of the energy transition. There are many ways to store energy, but among them,…”
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Hydrogen storage properties of eutectic metal borohydrides melt-infiltrated into porous Al scaffolds by Sofianos, M. Veronica, Chaudhary, Anna-Lisa, Paskevicius, Mark, Sheppard, Drew A., Humphries, Terry D., Dornheim, Martin, Buckley, Craig E.

“…Porous Al scaffolds were synthesised and melt-infiltrated with various eutectic metal borohydride mixtures (0.725LiBH4-0.275KBH4, 0.68NaBH4-0.32KBH4,…”
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Efficient Synthesis of an Aluminum Amidoborane Ammoniate by Yang, Junzhi, Beaumont, Paul R, Humphries, Terry D, Jensen, Craig M, Li, Xingguo

“…A novel species of metal amidoborane ammoniate, [Al(NH2BH3)63-][Al(NH3)63+] has been successfully synthesized in up to 95% via the one-step reaction of…”
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Fluorine Substitution in Magnesium Hydride as a Tool for Thermodynamic Control by Humphries, Terry D, Yang, Jack, Mole, Richard A, Paskevicius, Mark, Bird, Julianne E, Rowles, Matthew R, Tortoza, Mariana S, Sofianos, M. Veronica, Yu, Dehong, Buckley, Craig. E

“…Metal hydrides continue to vie for attention as materials in multiple technological applications including hydrogen storage media, thermal energy storage (TES)…”
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Physicochemical Characterization of a Na–H–F Thermal Battery Material by Humphries, Terry D, Rawal, Aditya, Rowles, Matthew R, Prause, Christopher R, Bird, Julianne E, Paskevicius, Mark, Sofianos, M. Veronica, Buckley, Craig E

“…Fluorine-substituted sodium hydride is investigated for application as a thermal energy storage material inside thermal batteries. A range of compositions of…”
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Synthesis of NaAlH4/Al composites and their applications in hydrogen storage by Ianni, Enrico, Sofianos, M. Veronica, Rowles, Matthew R., Sheppard, Drew A., Humphries, Terry D., Buckley, Craig E.

“…In solid-state hydrogen storage in light metal hydrides, nanoconfinement and the use of catalysts represent promising solutions to overcoming limitations such…”
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Reversible Hydrogenation Studies of NaBH4 Milled with Ni-Containing Additives by Humphries, Terry D, Kalantzopoulos, Georgios N, Llamas-Jansa, Isabel, Olsen, Jørn Eirik, Hauback, Bjørn C

“…NaBH4 has long been identified as a viable hydrogen-storage material due to a theoretical gravimetric H2 capacity of 10.6 wt %. Because of the high enthalpy of…”
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Enhanced tunability of thermodynamic stability of complex hydrides by the incorporation of H– anions by Takagi, Shigeyuki, Humphries, Terry D., Miwa, Kazutoshi, Orimo, Shin-ichi

“…First-principles calculations were employed to investigate hypothetical complex hydrides (M,M′)4FeH8 (M = Na, Li; M′=Mg, Zn, Y, Al). Besides complex anion…”
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State-of-the-Art and Progress in Metal-Hydrogen Systems by Humphries, Terry D., Buckley, Craig E., Paskevicius, Mark, Jensen, Torben R.

“…Hydrogen is heralded as a future global energy carrier [...]…”
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Regeneration of LiAlH4 at sub-ambient temperatures studied by multinuclear NMR spectroscopy by Humphries, Terry D., Birkmire, Derek, McGrady, G. Sean, Hauback, Bjørn C., Jensen, Craig M.

“…Lithium aluminium hydride (LiAlH4) has long been identified as a viable hydrogen storage material, due to its high attainable theoretical gravimetric hydrogen…”
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Establishing ZIF‐8 as a reference material for hydrogen cryoadsorption: An interlaboratory study by Villajos, Jose A., Balderas‐Xicohténcatl, Rafael, Al Shakhs, Ali N., Berenguer‐Murcia, Ángel, Buckley, Craig E., Cazorla‐Amorós, Diego, Charalambopoulou, Georgia, Couturas, Fabrice, Cuevas, Fermin, Fairen‐Jimenez, David, Heinselman, Karen N., Humphries, Terry D., Kaskel, Stefan, Kim, Hyunlim, Marco‐Lozar, Juan P., Oh, Hyunchul, Parilla, Philip A., Paskevicius, Mark, Senkovska, Irena, Shulda, Sarah, Silvestre‐Albero, Joaquin, Steriotis, Theodore, Tampaxis, Christos, Hirscher, Michael, Maiwald, Michael

“…Hydrogen storage by cryoadsorption on porous materials has the advantages of low material cost, safety, fast kinetics, and high cyclic stability. The further…”
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Recent advances in the 18-electron complex transition metal hydrides of Ni, Fe, Co and Ru by Humphries, Terry D., Sheppard, Drew A., Buckley, Craig E.

“…[Display omitted] •Complex Transition Metal Hydrides of Ni, Fe, Co and Ru have been explored.•All analogues of [NiH4]4−, [FeH6]4−, [CoH5]4− and [RuH6]4− anions…”
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