693.932 PEOPLE
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| Naji, M. |
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| Motta, Antonella |
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| Petrov, R. H. | Madrid |
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| Azevedo, Nuno Monteiro |
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| Landes, Michael |
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| Rignanese, Gian-Marco |
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Milanese, Chiara
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Topics
Publications (50/50 displayed)
- 2024Synthesis and Characterization of Cu-Containing Chiral Metal Halides and Role of Halogenation of the Organic Ligandcitations
- 2024Effect of Mn Substitution on GeFe2O4 as an Anode for Sodium Ion Batteriescitations
- 2024On the synergistic interplay between annealing temperature and time and additive concentration for efficient and stable FAPbI3 perovskite solar cellscitations
- 2023Role of Chain Length on (CnH2n+1NH3)2PbX4 (n=6, 8, 10, 12, 14, 16; X=Br and I) 2D Metal Halide Perovskites Physical Properties and Hydrophobicity
- 2023Prussian Blue nanoparticles: An FDA-approved substance that may quickly degrade at physiological pHcitations
- 2023The Effect of Y Content on Structural and Sorption Properties of A2B7-Type Phase in the La–Y–Ni–Al–Mn System ; ENEngelskEnglishThe Effect of Y Content on Structural and Sorption Properties of A2B7-Type Phase in the La–Y–Ni–Al–Mn Systemcitations
- 2023The Effect of Y Content on Structural and Sorption Properties of A2B7-Type Phase in the La–Y–Ni–Al–Mn Systemcitations
- 2022De-hydrogenation/Rehydrogenation Properties and Reaction Mechanism of AmZn(NH2)n-2nLiH Systems (A = Li, K, Na, and Rb)citations
- 2022De-hydrogenation/rehydrogenation properties and reaction mechanism of AmZn(NH2)n-2nLiH systems (A = Li, K, Na, and Rb)citations
- 2022Fundamentals of hydrogen storage in nanoporous materialscitations
- 2022Fundamentals of hydrogen storage in nanoporous materialscitations
- 2022Sustainable NaAlH4 production from recycled automotive Al alloycitations
- 2022De-hydrogenation/Rehydrogenation Properties and Reaction Mechanism of AmZn(NH$_2$)$_{n-2}$nLiH Systems (A = Li, K, Na, and Rb)citations
- 2022Sustainable NaAlH$_4$ production from recycled automotive Al alloycitations
- 2021Role of spacer cations and structural distortion in two-dimensional germanium halide perovskitescitations
- 2018Rationalization of hydrogen production by bulk g-C3N4: an in-depth correlation between physico-chemical parameters and solar light photocatalysiscitations
- 2017Electrochemical properties of the composites synthesized from polyaniline and modified MWCNTcitations
- 20162LiBH(4)-MgH2 nanoconfined into carbon aerogel scaffold impregnated with ZrCl4 for reversible hydrogen storagecitations
- 2016Reversible hydrogen sorption in the composite made of magnesium borohydride and silica aerogelcitations
- 2016Properties of Glauconite/Polyaniline Composite Prepared in Aqueous Solution of Citric Acidcitations
- 2015Structural and kinetic investigation of the hydride composite $mathrm{Ca(BH_{4})_{2} + MgH_2}$ system doped with $mathrm{NbF_5}$ for solid-state hydrogen storagecitations
- 2015Ammonia-Storage in Lithium Intercalated Fulleridescitations
- 2014Mechanochemical Synthesis of Bumetanide–4-Aminobenzoic Acid Molecular Cocrystals: A Facile and Green Approach to Drug Optimizationcitations
- 20142LiBH4-MgH2-0.13TiCl4 confined in nanoporous structure of carbon aerogel scaffold for reversible hydrogen storagecitations
- 2013Thermodynamic and kinetic characterization of the catalysed LiBH4 - MgH2 system
- 2013Chemical state, distribution and role of Ti- and Nb-based additives on the Ca(BH4)2 systemcitations
- 2013Nanoconfined 2LiBH4-MgH2 for Reversible Hydrogen Storages: Reaction Mechanisms, Kinetics and Thermodynamicscitations
- 2012Ordered mesoporous scaffolds for the confinement of nanosized complex and metal hydrides
- 2012Nanoconfined 2LiBH4 - MgH2 in nanoporous carbon aerogel scaffolds for reversible hydrogen storage
- 2012Hydrogen storage in 2NaBH4 + MgH2 mixtures: Destabilization by additives and nanoconfinementcitations
- 2011Hydrogen Sorption properties of nanocomposites NaBH4-MgH2 confined by melting impregnation into SBA-15
- 2011Investigation of the H2 sorption properties of NaBH4 – MgH2 nanocomposites confined into mesoporous SBA-15
- 2011Hydrogen sorption performance of MgH2 doped with mesoporous nickel- and cobalt-based oxidescitations
- 2010Sorption properties of NaBH4/MH2 (M = Mg, Ti) powder systemscitations
- 2010Effect of C (graphite) doping on the H2 sorption performance of the Mg – Ni storage system.citations
- 2010Mechano-thermally Activated Solid-State Synthesis of Li4Ti5O12 Spinel from Li2CO3-TiO2 Mixtures
- 2010Mg – Ni – Cu mixtures for hydrogen storage: a kinetic studycitations
- 2009Mg–Ni based material for hydrogen storage optimized for an industrial tank prototype
- 2009Kinetic features in the hydrogen sorption by NaBH4 + MgH2 composites under mechanical activation conditions
- 2008Reactivity and hydrogen storage performances of magnesium-nickel-copper ternary mixtures prepared by reactive mechanical grinding
- 2008Hydrogen storage in magnesium-metal mixtures: reversibility, kinetic aspects and phase analysis, orage in magnesium – metal mixtures
- 2008Hydrogen storage in magnesium – metal mixtures: reversibility, kinetic aspects and phase analysiscitations
- 2008Reactivity and hydrogen storage performances of magnesium – nickel – copper ternary mixtures prepared by reactive mechanical grindingcitations
- 2007The effect of intrinsic defects on RE3Al5O12 Garnet Scintillator Performancecitations
- 2006Ignition and reaction mechanism of Co-Al and Nb-Al intermetallic compounds prepared by combustion synthesis
- 2005Cathode materials (NiO-LiFeO2-LiCoO2) for molten carbonate fuel cell: a diffraction and conductivity study
- 2003Combustion Synthesis of Mechanically Activated powders in the Ta-Si system
- 2003Self-propagating High-temperature synthesis microalloying of MoSi2 with Nb and Vcitations
- 2002Growth of vanadium and tantalum silicides in bulk diffusion couples
- 2002Transition metal silicides: growth in metal-silicon diffusion couples
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article
De-hydrogenation/Rehydrogenation Properties and Reaction Mechanism of AmZn(NH2)n-2nLiH Systems (A = Li, K, Na, and Rb)
Abstract
<jats:p>With the aim to find suitable hydrogen storage materials for stationary and mobile applications, multi-cation amide-based systems have attracted considerable attention, due to their unique hydrogenation kinetics. In this work, AmZn(NH2)n (with A = Li, K, Na, and Rb) were synthesized via an ammonothermal method. The synthesized phases were mixed via ball milling with LiH to form the systems AmZn(NH2)n-2nLiH (with m = 2, 4 and n = 4, 6), as well as Na2Zn(NH2)4∙0.5NH3-8LiH. The hydrogen storage properties of the obtained materials were investigated via a combination of calorimetric, spectroscopic, and diffraction methods. As a result of the performed analyses, Rb2Zn(NH2)4-8LiH appears as the most appealing system. This composite, after de-hydrogenation, can be fully rehydrogenated within 30 s at a temperature between 190 °C and 200 °C under a pressure of 50 bar of hydrogen.</jats:p>