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411 results on '"Hauback, Bjørn C."'

1. Interstitial Carbon in bcc HfNbTiVZr high entropy alloy from first principles

Author

Casillas-Trujillo, Luis, Jansson, Ulf, Sahlberg, Martin, Ek, Gustav, Nygård, Magnus M., Sørby, Magnus H., Hauback, Bjørn C., Abrikosov, Igor, and Alling, Björn

Subjects
Condensed Matter - Materials Science
Abstract

The remarkable mechanical properties of high entropy alloys can be further improved by interstitial alloying. In this work we employ density functional theory calculations to study the solution energies of dilute carbon interstitial atoms in tetrahedral and octahedral sites in bcc HfNbTiVZr. Our results indicate that carbon interstitials in tetrahedral sites are unstable, and the preferred octahedral sites present a large spread in the energy of solution. The inclusion of carbon interstitials induces large structural relaxations with long-range effects. The effect of local chemical environment on the energy of solution is investigated by performing a local cluster expansion including studies of its correlation with the carbon atomic Voronoi volume. However, the spread in solution energetics can not be explained with a local environment analysis only pointing towards a complex, long-range influence of interstitial carbon in this alloy.

Published
2020

2. Pseudo-ternary LiBH4-LiCl-P2S5 system as structurally disordered bulk electrolyte for all-solid-state lithium batteries

Author

Kharbachi, Abdelouahab El, Wind, Julia, Ruud, Amund, Høgset, Astrid B., Nygård, Magnus M., Zhang, Junxian, Sørby, Magnus H., Kim, Sangryun, Cuevas, Fermin, Orimo, Shin-ichi, Fichtner, fMaximilian, Latroche, Michel, Fjellvåg, Helmer, and Hauback, Bjørn C.

Subjects
Condensed Matter - Materials Science
Abstract

The properties of the mixed system LiBH4 LiCl P2S5 are studied with respect to all-solid-state batteries. The studied material undergoes an amorphization upon heating above 601C, accompanied with increased Li+ conductivity beneficial for battery electrolyte applications. The measured ionic conductivity is 10-3 Scm-1 at room temperature with an activation energy of 0.40(2) eV after amorphization. Structural analysis and characterization of the material suggest that BH4 groups and PS4 may belong to the same molecular structure, where Cl ions interplay to accommodate the structural unit. Thanks to its conductivity, ductility and electrochemical stability (up to 5 V, Au vs. Li+/Li), this new electrolyte is successfully tested in battery cells operated with a cathode material (layered TiS2, theo. capacity 239 mAh g-1) and Li anode resulting in 93% capacity retention (10 cycles) and notable cycling stability under the current density 12 mA g-1 (0.05C-rate) at 501C. Further advanced characterisation by means of operando synchrotron X-ray diffraction in transmission mode contributes explicitly to a better understanding of the (de)lithiation processes of solid-state battery electrodes operated at moderate temperatures.

Published
2020
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3. Materials for hydrogen-based energy storage: Past, recent progress and future outlook

Author

Yartys, Volodymyr A., Baricco, Marcello, von Colbe, Jose Bellosta, Blanchard, Didier, Bowman Jr., 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., Hauback, Bjørn C., Havela, Ladislav, He, Teng, Hirscher, Michael, 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., Sofianos, M. Veronica, Udovic, Terrence J., Vegge, Tejs, Walker, Gavin S., Webb, Colin J., Weidenthaler, Claudia, and Zlotea, Claudia

Subjects
Condensed Matter - Materials Science, Condensed Matter - Other Condensed Matter
Abstract

Magnesium hydride owns the largest share of publications on solid materials for hydrogen storage. The Magnesium group of international experts contributing to IEA Task 32 Hydrogen Based Energy Storage recently published two review papers presenting the activities of the group focused on magnesium hydride based materials and on Mg based compounds for hydrogen and energy storage. This review article not only overviews the latest activities on both fundamental aspects of Mg-based hydrides and their applications, but also presents a historic overview on the topic and outlines projected future developments. Particular attention is paid to the theoretical and experimental studies of Mg-H system at extreme pressures, kinetics and thermodynamics of the systems based on MgH2,nanostructuring, new Mg-based compounds and novel composites, and catalysis in the Mg based H storage systems. Finally, thermal energy storage and upscaled H storage systems accommodating MgH2 are presented.

Published
2020
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5. The role of grain boundary scattering in reducing the thermal conductivity of polycrystalline XNiSn (X = Hf, Zr, Ti) half-Heusler alloys

Author

Schrade, Matthias, Berland, Kristian, Eliassen, Simen N. H., Guzik, Matylda N., Echevarria-Bonet, Cristina, Sørby, Magnus H., Jenus, Petra, Hauback, Bjørn C., Tofan, Raluca, Gunnæs, Anette E., Persson, Clas, Løvvik, Ole Martin, and Finstad, Terje G.

Subjects
Condensed Matter - Materials Science
Abstract

Thermoelectric application of half-Heusler compounds suffers from their fairly high thermal conductivities. Insight into how effective various scattering mechanisms are in reducing the thermal conductivity of fabricated XNiSn compounds (X = Hf, Zr, Ti, and mixtures thereof) is therefore crucial. Here, we show that such insight can be obtained through a concerted theory-experiment comparison of how the lattice thermal conductivity kLat(T) depends on temperature and crystallite size. Comparing theory and experiment for a range of Hf0.5Zr0.5NiSn and ZrNiSn samples reported in the literature and in the present paper revealed that grain boundary scattering plays the most important role in bringing down kLat, in particular so for unmixed compounds. Our concerted analysis approach was corroborated by a good qualitative agreement between the measured and calculated kLat of polycrystalline samples, where the experimental average crystallite size was used as an input parameter for the calculations. The calculations were based on the Boltzmann transport equation and ab initio density functional theory. Our analysis explains the significant variation of reported kLat of nominally identical XNiSn samples and is expected to provide valuable insights into the dominant scattering mechanisms even for other materials.

Published
2017
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6. Effect of Carbon Addition and Mechanical Activation on FeNi Alloys for Permanent Magnet Applications.

Author

da Silva, Valmir R., Fjellvåg, Øystein S., Pokle, Anuj, Hauback, Bjørn C., and Deledda, Stefano

Subjects
SCANNING transmission electron microscopy, X-ray powder diffraction, MAGNETIC properties, LIQUID nitrogen, CRYOGENIC grinding
Abstract

Tetrataenite is a promising candidate for rare earth-free permanent magnets due to its low cost and intrinsic magnetic properties. This work investigates the effect of combined milling at liquid nitrogen temperatures (cryomilling) and the addition of carbon as an interstitial element for promoting the formation of tetrataenite. Crystal structure, microstructure, and magnetic properties are investigated to understand the influence of mechanical processing and compositional modifications. No unambiguous evidence of the ordered phase of tetrataenite is found in the structural characterization. However, using Scanning Transmission Electron Microscopy (STEM) and powder X-ray diffraction (PXD) analyses, the occurrence of both twinning and stacking faults resulting from the high-energy milling process is observed, which is a relevant factor for identifying tetrataenite in FeNi alloys. The probability of a stacking fault and twinning occurring for a carbon-free FeNi sample before annealing is found to be 2% and 1.4%, respectively. After annealing, the stacking fault probability decreased to 1.2%, while that of twinning was 1.4%. By increasing the carbon concentration to 5 at.%, the stacking faults and twinning probabilities decrease slightly to 1.2% and 1.3%, respectively. The occurrence of stacking faults combined with small crystallite sizes was a hindering factor in identifying the presence of tetrataenite. [ABSTRACT FROM AUTHOR]

Published
2024
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7. Order-to-Disorder Transition and Hydrogen Bonding in the Jahn–Teller Active NH4CrF3 Fluoroperovskite

Author

Fjellvåg, Øystein S., primary, Gonano, Bruno, additional, Bernal, Fabian L. M., additional, Amedi, Salah B., additional, Lyu, Jike, additional, Pomjakushin, Vladimir, additional, Medarde, Marisa, additional, Chernyshov, Dmitry, additional, Marshall, Kenneth, additional, Valldor, Martin, additional, Fjellvåg, Helmer, additional, and Hauback, Bjørn C., additional

Published
2024
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11. Materials for hydrogen-based energy storage – past, recent progress and future outlook

Author

Hirscher, Michael, Yartys, Volodymyr A., Baricco, Marcello, Bellosta von Colbe, Jose, Blanchard, Didier, Bowman, Robert C., Jr., 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, and Zlotea, Claudia

Published
2020
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14. Surface oxide on thin films of yttrium hydride studied by neutron reflectometry

Author

Mongstad, Trygve, Platzer-Björkman, Charlotte, Mæhlen, Jan Petter, Hauback, Bjørn C., Karazhanov, Smagul Zh., and Cousin, Fabrice

Subjects
Condensed Matter - Materials Science
Abstract

The applicability of standard methods for compositional analysis is limited for H-containing films. Neutron reflectometry is a powerful, non-destructive method that is especially suitable for these systems due to the large negative scattering length of H. In this work we demonstrate how neutron reflectometry can be used to investigate thin films of yttrium hydride. Neutron reflectometry gives a strong contrast between the film and the surface oxide layer, enabling us to estimate the oxide thickness and oxygen penetration depths. A surface oxide layer of 5-10 nm thickness was found for unprotected yttrium hydride films.

Published
2012
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15. MgyNi1-y(Hx) thin films deposited by magnetron co-sputtering

Author

Mongstad, Trygve, You, Chang C., Thøgersen, Annett, Mæhlen, Jan Petter, Platzer-Björkman, Charlotte, Hauback, Bjørn C., and Karazhanov, Smagul Zh.

Subjects
Condensed Matter - Materials Science
Abstract

In this work we have synthesised thin films of MgyNi1-y(Hx) metal and metal hydride with y between 0 and 1. The films are deposited by magnetron co-sputtering of metallic targets of Mg and Ni. Metallic MgyNi1-y films were deposited with pure Ar plasma while MgyNi1-yHx hydride films were deposited reactively with 30% H2 in the Ar plasma. The depositions were done with a fixed substrate carrier, producing films with a spatial gradient in the Mg and Ni composition. The combinatorial method of co-sputtering gives an insight into the phase diagram of MgyNi1-y and MgyNi1-yHx, and allows us to investigate structural, optical and electrical properties of the resulting alloys. Our results show that reactive sputtering gives direct deposition of metal hydride films, with high purity in the case of Mg~2NiH~4. We have observed limited oxidation after several months of exposure to ambient conditions. MgyNi1-y and MgyNi1-yHx films might be applied for optical control in smart windows, optical sensors and as a semiconducting material for photovoltaic solar cells.

Published
2012
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16. A new thin film photochromic material: Oxygen-containing yttrium hydride

Author

Mongstad, Trygve, Platzer-Björkman, Charlotte, Maehlen, Jan Petter, Mooij, Lennard P. A., Pivak, Yevheniy, Dam, Bernard, Marstein, Erik S., Hauback, Bjørn C., and Karazhanov, Smagul

Subjects
Condensed Matter - Materials Science
Abstract

In this work we report on photochromism in transparent thin film samples of oxygen-containing yttrium hydride. Exposure to visible and ultraviolet (UV) light at moderate intensity triggers a decrease in the optical transmission of visible and infrared (IR) light. The photo-darkening is colour-neutral. We show that the optical transmission of samples of 500 nm thickness can be reduced by up to 50% after one hour of illumination with light of moderate intensity. The reaction is reversible and samples that are left in the dark return to the initial transparent state. The relaxation time in the dark depends on the temperature of the sample and the duration of the light exposure. The photochromic reaction takes place under ambient conditions in the as-deposited state of the thin-film samples., Comment: Accepted for publication in Solar Energy Materials and Solar Cells

Published
2011
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19. Neutron Scattering: Introduction

Author

Hauback, Bjørn C., Mauroy, Henrik, Anderson, Ian S., Series editor, Hurd, Alan J., Series editor, McGreevy, Robert L., Series editor, Fritzsche, Helmut, editor, Huot, Jacques, editor, and Fruchart, Daniel, editor

Published
2016
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24. Study of the magnetostructural transition in critical-element free Mn1−xNi1−xFe2xSi0.95Al0.05

Author

Eggert, Bruno G. F., Wang, Kun, Jafarzadeh, Sina, Bahl, Christian R., Hauback, Bjørn C., Frommen, Christoph, Eggert, Bruno G. F., Wang, Kun, Jafarzadeh, Sina, Bahl, Christian R., Hauback, Bjørn C., and Frommen, Christoph

Abstract

Two different heat treatments have been carried out on similar Mn1−xNi1−xFe2xSi0.95Al0.05 compositions with magnetostructural transitions between hexagonal and orthorhombic crystal structures around room temperature. The samples were analyzed concerning their structural, microstructural, magnetic, and caloric properties. The results show that the introduction of a high-temperature step, before the heat treatment (1073 K/7 days) usually used in the literature for such compounds modifies the microstructure, leading to sharper transitions with shorter transition widths, and stronger latent heat peaks. Magnetic field-assisted calorimetry and vibrating sample magnetometry provide methods to assess the effect of magnetic field on the broad transitions for the sample with x = 0.32 and the sharp transitions seen in the sample with x = 0.31.

Published
2023

31. Complex and liquid hydrides for energy storage

Author

Callini, Elsa, Atakli, Zuleyha Özlem Kocabas, Hauback, Bjørn C., Orimo, Shin-ichi, Jensen, Craig, Dornheim, Martin, Grant, David, Cho, Young Whan, Chen, Ping, Hjörvarsson, Bjørgvin, de Jongh, Petra, Weidenthaler, Claudia, Baricco, Marcello, Paskevicius, Mark, Jensen, Torben R., Bowden, Mark E., Autrey, Thomas S., and Züttel, Andreas

Published
2016
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32. Hydrogen storage in complex hydrides: Past activities and new trends

Author

Dematteis, Erika Michela, Amdisen, Mads B., Autrey, Tom, Barale, Jussara, Bowden, Mark E., Buckley, Craig E., Cho, Young Whan, Deledda, Stefano, Dornheim, Martin, De Jongh, Petra, Grinderslev, Jakob B., Gizer, Gökhan, Gulino, Valerio, Hauback, Bjørn C., Heere, Michael, Heo, Tae Wook, Humphries, Terry D., Jensen, Torben R., Kang, Shin Young, Lee, Young Su, Li, Hai Wen, Li, Sichi, Møller, Kasper T., Ngene, Peter, Orimo, Shin Ichi, Paskevicius, Mark, Polanski, Marek, Takagi, Shigeyuki, Wan, Liwen, Wood, Brandon C., Hirscher, Michael, Baricco, Marcello, Dematteis, Erika Michela, Amdisen, Mads B., Autrey, Tom, Barale, Jussara, Bowden, Mark E., Buckley, Craig E., Cho, Young Whan, Deledda, Stefano, Dornheim, Martin, De Jongh, Petra, Grinderslev, Jakob B., Gizer, Gökhan, Gulino, Valerio, Hauback, Bjørn C., Heere, Michael, Heo, Tae Wook, Humphries, Terry D., Jensen, Torben R., Kang, Shin Young, Lee, Young Su, Li, Hai Wen, Li, Sichi, Møller, Kasper T., Ngene, Peter, Orimo, Shin Ichi, Paskevicius, Mark, Polanski, Marek, Takagi, Shigeyuki, Wan, Liwen, Wood, Brandon C., Hirscher, Michael, and Baricco, Marcello

Abstract

Intense literature and research efforts have focussed on the exploration of complex hydrides for energy storage applications over the past decades. A focus was dedicated to the determination of their thermodynamic and hydrogen storage properties, due to their high gravimetric and volumetric hydrogen storage capacities, but their application has been limited because of harsh working conditions for reversible hydrogen release and uptake. The present review aims at appraising the recent advances on different complex hydride systems, coming from the proficient collaborative activities in the past years from the research groups led by the experts of the Task 40 'Energy Storage and Conversion Based on Hydrogen' of the Hydrogen Technology Collaboration Programme of the International Energy Agency. An overview of materials design, synthesis, tailoring and modelling approaches, hydrogen release and uptake mechanisms and thermodynamic aspects are reviewed to define new trends and suggest new possible applications for these highly tuneable materials.

Published
2022

33. Metallic and complex hydride-based electrochemical storage of energy

Author

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, 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, and Latroche, Michel

Abstract

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, electrochemical storage is particularly valuable because it can store electrons produced by renewable energies with a very good efficiency. However, the solutions currently available on the market remain unsuitable in terms of storage capacity, recharging kinetics, durability, and cost. Technological breakthroughs are therefore expected to meet the growing need for energy storage. Within the framework of the Hydrogen Technology Collaboration Program - H2TCP Task-40, IEA's expert researchers have developed innovative materials based on hydrides (metallic or complex) offering new solutions in the field of solid electrolytes and anodes for alkaline and ionic batteries. This review presents the state of the art of research in this field, from the most fundamental aspects to the applications in battery prototypes.

Published
2022

34. Hydrogen storage in complex hydrides: Past activities and new trends

Author

Sub Materials Chemistry and Catalysis, Materials Chemistry and Catalysis, Dematteis, Erika Michela, Amdisen, Mads B., Autrey, Tom, Barale, Jussara, Bowden, Mark E., Buckley, Craig E., Cho, Young Whan, Deledda, Stefano, Dornheim, Martin, De Jongh, Petra, Grinderslev, Jakob B., Gizer, Gökhan, Gulino, Valerio, Hauback, Bjørn C., Heere, Michael, Heo, Tae Wook, Humphries, Terry D., Jensen, Torben R., Kang, Shin Young, Lee, Young Su, Li, Hai Wen, Li, Sichi, Møller, Kasper T., Ngene, Peter, Orimo, Shin Ichi, Paskevicius, Mark, Polanski, Marek, Takagi, Shigeyuki, Wan, Liwen, Wood, Brandon C., Hirscher, Michael, Baricco, Marcello, Sub Materials Chemistry and Catalysis, Materials Chemistry and Catalysis, Dematteis, Erika Michela, Amdisen, Mads B., Autrey, Tom, Barale, Jussara, Bowden, Mark E., Buckley, Craig E., Cho, Young Whan, Deledda, Stefano, Dornheim, Martin, De Jongh, Petra, Grinderslev, Jakob B., Gizer, Gökhan, Gulino, Valerio, Hauback, Bjørn C., Heere, Michael, Heo, Tae Wook, Humphries, Terry D., Jensen, Torben R., Kang, Shin Young, Lee, Young Su, Li, Hai Wen, Li, Sichi, Møller, Kasper T., Ngene, Peter, Orimo, Shin Ichi, Paskevicius, Mark, Polanski, Marek, Takagi, Shigeyuki, Wan, Liwen, Wood, Brandon C., Hirscher, Michael, and Baricco, Marcello

Published
2022

35. Metallic and complex hydride-based electrochemical storage of energy

Author

Materials Chemistry and Catalysis, Sub Materials Chemistry and Catalysis, 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, Materials Chemistry and Catalysis, Sub Materials Chemistry and Catalysis, 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, and Latroche, Michel

Published
2022

39. Hydrogen storage in complex hydrides: past activities and new trends

Author

Dematteis, Erika Michela, primary, Amdisen, Mads B, additional, Autrey, Tom, additional, Barale, Jussara, additional, Bowden, Mark E, additional, Buckley, Craig E, additional, Cho, Young Whan, additional, Deledda, Stefano, additional, Dornheim, Martin, additional, de Jongh, Petra, additional, Grinderslev, Jakob B, additional, Gizer, Gökhan, additional, Gulino, Valerio, additional, Hauback, Bjørn C, additional, Heere, Michael, additional, Heo, Tae Wook, additional, Humphries, Terry D, additional, Jensen, Torben R, additional, Kang, Shin Young, additional, Lee, Young-Su, additional, Li, Hai-Wen, additional, Li, Sichi, additional, Møller, Kasper T, additional, Ngene, Peter, additional, Orimo, Shin-ichi, additional, Paskevicius, Mark, additional, Polanski, Marek, additional, Takagi, Shigeyuki, additional, Wan, Liwen, additional, Wood, Brandon C, additional, Hirscher, Michael, additional, and Baricco, Marcello, additional

Published
2022
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40. Magnesium- and intermetallic alloys-based hydrides for energy storage: modelling, synthesis and properties

Author

Pasquini, Luca, primary, Sakaki, Kouji, additional, Akiba, Etsuo, additional, Allendorf, Mark D, additional, Alvares, Ebert, additional, Ares, Josè R, additional, Babai, Dotan, additional, Baricco, Marcello, additional, Bellosta von Colbe, Josè, additional, Bereznitsky, Matvey, additional, Buckley, Craig E, additional, Cho, Young Whan, additional, Cuevas, Fermin, additional, de Rango, Patricia, additional, Dematteis, Erika Michela, additional, Denys, Roman V, additional, Dornheim, Martin, additional, Fernández, J F, additional, Hariyadi, Arif, additional, Hauback, Bjørn C, additional, Heo, Tae Wook, additional, Hirscher, Michael, additional, Humphries, Terry D, additional, Huot, Jacques, additional, Jacob, Isaac, additional, Jensen, Torben R, additional, Jerabek, Paul, additional, Kang, Shin Young, additional, Keilbart, Nathan, additional, Kim, Hyunjeong, additional, Latroche, Michel, additional, Leardini, F, additional, Li, Haiwen, additional, Ling, Sanliang, additional, Lototskyy, Mykhaylo V, additional, Mullen, Ryan, additional, Orimo, Shin-ichi, additional, Paskevicius, Mark, additional, Pistidda, Claudio, additional, Polanski, Marek, additional, Puszkiel, Julián, additional, Rabkin, Eugen, additional, Sahlberg, Martin, additional, Sartori, Sabrina, additional, Santhosh, Archa, additional, Sato, Toyoto, additional, Shneck, Roni Z, additional, Sørby, Magnus H, additional, Shang, Yuanyuan, additional, Stavila, Vitalie, additional, Suh, Jin-Yoo, additional, Suwarno, Suwarno, additional, Thi Thu, Le, additional, Wan, Liwen F, additional, Webb, Colin J, additional, Witman, Matthew, additional, Wan, ChuBin, additional, Wood, Brandon C, additional, and Yartys, Volodymyr A, additional

Published
2022
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41. Metallic and complex hydride-based electrochemical storage of energy

Author

Cuevas, Fermin, primary, Amdisen, Mads B, additional, Baricco, Marcello, additional, Buckley, Craig E, additional, Cho, Young Whan, additional, de Jongh, Petra, additional, de Kort, Laura M, additional, Grinderslev, Jakob B, additional, Gulino, Valerio, additional, Hauback, Bjørn C, additional, Heere, Michael, additional, Humphries, Terry, additional, Jensen, Torben R, additional, Kim, Sangryun, additional, Kisu, Kazuaki, additional, Lee, Young-Su, additional, Li, Hai-Wen, additional, Mohtadi, Rana, additional, Møller, Kasper T, additional, Ngene, Peter, additional, Noréus, Dag, additional, Orimo, Shin-ichi, additional, Paskevicius, Mark, additional, Polanski, Marek, additional, Sartori, Sabrina, additional, Skov, Lasse N, additional, Sørby, Magnus H, additional, Wood, Brandon C, additional, Yartys, Volodymyr A, additional, Zhu, Min, additional, and Latroche, Michel, additional

Published
2022
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49. Study of the magnetostructural transition in critical-element free Mn1−xNi1−xFe2xSi0.95Al0.05.

Author

Eggert, Bruno G. F., Wang, Kun, Jafarzadeh, Sina, Bahl, Christian R., Hauback, Bjørn C., and Frommen, Christoph

Subjects
MAGNETIC field effects, HEAT treatment, MANGANESE alloys, LATENT heat, CRYSTAL structure
Abstract

Two different heat treatments have been carried out on similar Mn1−xNi1−xFe2xSi0.95Al0.05 compositions with magnetostructural transitions between hexagonal and orthorhombic crystal structures around room temperature. The samples were analyzed concerning their structural, microstructural, magnetic, and caloric properties. The results show that the introduction of a high-temperature step, before the heat treatment (1073 K/7 days) usually used in the literature for such compounds modifies the microstructure, leading to sharper transitions with shorter transition widths, and stronger latent heat peaks. Magnetic field-assisted calorimetry and vibrating sample magnetometry provide methods to assess the effect of magnetic field on the broad transitions for the sample with x = 0.32 and the sharp transitions seen in the sample with x = 0.31. [ABSTRACT FROM AUTHOR]

Published
2023
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50. Characterizing the ZrBe 2 H x Phase Diagram via Neutron Scattering Methods.

Author

Wu, Hui, Zhou, Wei, Udovic, Terrence J., Bowman Jr., Robert C., and Hauback, Bjørn C.

Subjects
NEUTRON scattering, PHASE diagrams, NEUTRON spectroscopy, ORDER-disorder transitions, NEUTRON diffraction, HYDRIDES
Abstract

Since the initial assessment four decades ago of zirconium diberyllide, ZrBe2, as a potential hydride-forming intermetallic for hydrogen-storage applications, structural and dynamical studies to date have been chiefly limited to the hydride composition, ZrBe2H1.5, which exists as a single-phase disordered hydride with hexagonal P6/mmm symmetry that undergoes hydrogen sublattice ordering below ~200 K (~235–250 K for ZrBe2D1.5). It is desirable from both fundamental and technological viewpoints to have a more complete understanding of the ZrBe2Hx phase diagram. In the present study, both neutron powder diffraction and neutron vibrational spectroscopy measurements of ZrBe2Hx at lower hydrogen contents (x < 1.5) indicate that at least two other ordered phases exist at low temperatures, coinciding with respective nominal x values of 1 and 0.67. Compared to ZrBe2H1.5, these more-hydrogen-dilute phases possess different structural symmetries (orthorhombic) with different H-sublattice orderings and undergo much-higher-temperature order-disorder transitions at ≈ 460 K (x = 1) and ≈ 490 K (x = 0.67) to the characteristic H-disordered hexagonal P6/mmm structure associated with ZrBe2H1.5. [ABSTRACT FROM AUTHOR]

Published
2023
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