X
Search Filters
Format Format
Subjects Subjects
Subjects Subjects
X
Sort by Item Count (A-Z)
Filter by Count
lani5 (692) 692
chemistry, physical (419) 419
metallurgy & metallurgical engineering (314) 314
materials science, multidisciplinary (277) 277
absorption (225) 225
energy & fuels (189) 189
hydrogen storage (179) 179
alloys (161) 161
electrochemistry (156) 156
hydrogen (156) 156
kinetics (112) 112
wasserstoff (110) 110
lani (109) 109
desorption (106) 106
hydrides (102) 102
system (102) 102
physics, atomic, molecular & chemical (88) 88
intermetallic compounds (80) 80
wasserstoffspeicherlegierung (80) 80
storage (78) 78
hydrogen absorption (77) 77
metal hydride (77) 77
materials science (75) 75
metallhydrid (72) 72
environmental sciences (71) 71
behavior (70) 70
wasserstoffspeicherung (69) 69
hydrogen storage alloy (66) 66
nickellegierung (65) 65
metal hydrides (64) 64
hydrieren (62) 62
lanthanlegierung (55) 55
analysis (52) 52
degradation (52) 52
electrochemical properties (52) 52
hydrogen storage materials (51) 51
batteries (50) 50
nickel (49) 49
wasserstoffabsorption (49) 49
wasserstoffspeicher (49) 49
electrodes (48) 48
hydride (48) 48
metal-hydrides (48) 48
stability (48) 48
hydrogen storage alloys (44) 44
alloy (42) 42
sorption (42) 42
hydrogenation (41) 41
thermodynamics (40) 40
electronic structure (39) 39
intermetallische verbindung (38) 38
magnesium (37) 37
intermetallics (36) 36
surface (36) 36
activation (32) 32
palladium (32) 32
röntgenbeugung (32) 32
x-ray diffraction (32) 32
diffusion (31) 31
feti (30) 30
mass-transfer (30) 30
mechanical alloying (29) 29
substitution (29) 29
oxidation (28) 28
phase (28) 28
composite (27) 27
diffraction (27) 27
electronic-structure (27) 27
gas-solid reactions (27) 27
mg2ni (27) 27
performance (27) 27
physics, condensed matter (27) 27
systems (27) 27
adsorption (26) 26
hydrogen-storage (26) 26
hydrid (25) 25
hydriding kinetics (25) 25
lani 5 (25) 25
mechanisches legieren (25) 25
simulation (25) 25
x-ray-diffraction (25) 25
electrode (24) 24
hydrogen absorbing materials (24) 24
microstructure (24) 24
reactor (24) 24
wasserstoffwirtschaft (24) 24
crystal-structure (22) 22
k ei chemistry, physical (22) 22
cobalt (21) 21
hydrogen-absorption (21) 21
kinetik (21) 21
physics, applied (21) 21
titanlegierung (21) 21
k pm materials science (20) 20
k pz metallurgy & metallurgical engineering (20) 20
metal hydride electrodes (20) 20
metal-hydride (20) 20
metals (20) 20
mg-lani5 (20) 20
mikrostruktur (20) 20
more...
Language Language
Language Language
X
Sort by Item Count (A-Z)
Filter by Count
English (757) 757
Japanese (56) 56
Chinese (36) 36
Korean (4) 4
French (1) 1
Russian (1) 1
Ukrainian (1) 1
more...
Publication Date Publication Date
Click on a bar to filter by decade
Slide to change publication date range


International Journal of Hydrogen Energy, ISSN 0360-3199, 07/2018, Volume 43, Issue 29, pp. 13348 - 13355
Mg-AB5 composites are promising systems for hydrogen storage applications, due to their possibility of hydrogen cycling at relatively low temperatures.... 
MgH2 | Cold rolling | LaNi5 | Composites | Hydrogen storage
Journal Article
International Journal of Hydrogen Energy, ISSN 0360-3199, 07/2018, Volume 43, Issue 29, pp. 13348 - 13355
Mg-AB composites are promising systems for hydrogen storage applications, due to their possibility of hydrogen cycling at relatively low temperatures.... 
Cold rolling | Composites | Hydrogen storage | LaNi | MgH | MgH2 | ELECTROCHEMISTRY | ACTIVATION | ENERGY & FUELS | CHEMISTRY, PHYSICAL | H-SORPTION | MGH2 POWDERS | TRANSITION-METALS | SORPTION KINETICS | AT.PERCENT | MAGNESIUM HYDRIDE | LaNi5 | CATALYSTS | MG-LANI5
Journal Article
International Journal of Hydrogen Energy, ISSN 0360-3199, 11/2019, Volume 44, Issue 59, pp. 31216 - 31229
In this study, the Control-Volume Lattice Boltzmann Method (CVLBM) based on the unstructured grids is proposed as a numerical solver for transient heat and... 
LaNi5 | Unstructured grids | Hydrogen storage | Metal hydride | Lattice Boltzmann Method | Heat transfer
Journal Article
International Journal of Hydrogen Energy, ISSN 0360-3199, 10/2014, Volume 39, Issue 32, pp. 18273 - 18279
Mg (200 nm) and LaNi5 (25 nm) nanoparticles were produced by the hydrogen plasma-metal reaction (HPMR) method, respectively. Mg–5 wt.% LaNi5 nanocomposite was... 
LaNi5 | Hydrogen storage | Nanocomposite | Magnesium | Kinetics | LaNi | ELECTROCHEMISTRY | CATALYSIS | PARTICLES | ENERGY & FUELS | SORPTION | CHEMISTRY, PHYSICAL | ABSORPTION PROPERTIES | HYDRIDE | DEHYDROGENATION | TEMPERATURE | NICKEL | MG-LANI5
Journal Article
Chemical Physics Letters, ISSN 0009-2614, 2005, Volume 412, Issue 4, pp. 369 - 375
The hydrogen storage capacities of palladium- and vanadium-doped carbon nanotubes (CNTs) at room temperature were investigated using the Sieverts apparatus.... 
DESORPTION | PHYSICS, ATOMIC, MOLECULAR & CHEMICAL | LANI5 | CHEMISTRY, PHYSICAL | ABSORPTION | CATALYST | ADSORPTION | Palladium | Adsorption | Vanadium | Nanotubes
Journal Article
International Journal of Hydrogen Energy, ISSN 0360-3199, 09/2015, Volume 40, Issue 35, pp. 11498 - 11505
Magnesium based hybrids have potential applications for hydrogen storage in the solid state. Although magnesium can store a high amount of hydrogen (7.6 wt.%),... 
Mg-based hybrids | Hydrogen storage | Pressure-composition-isotherms | Accumulative roll bonding | ELECTROCHEMISTRY | GRAIN-REFINEMENT | ENERGY & FUELS | LANI5 | CHEMISTRY, PHYSICAL | COMPOSITE | MAGNESIUM | SEVERE PLASTIC-DEFORMATION | ALLOYS | SORPTION PROPERTIES | MICROSTRUCTURE | MG-LANI5 | Hydrogen
Journal Article
International Journal of Hydrogen Energy, ISSN 0360-3199, 11/2019, Volume 44, Issue 55, pp. 29068 - 29074
LaNi5 alloy can be utilized to directly store and release hydrogen in mild condition, thus it is considered as a long-term safe and stable solid-state hydrogen... 
LaNi5 | Metal hydride | CO2 methanation | Ni catalyst | STORAGE | ELECTROCHEMISTRY | HYDROGENATION | REDUCTION | ENERGY & FUELS | CHEMISTRY, PHYSICAL | CARBON-DIOXIDE | CATALYSTS
Journal Article
International Journal of Hydrogen Energy, ISSN 0360-3199, 2009, Volume 34, Issue 17, pp. 7368 - 7378
Non-Conventional Energy Sources, such as solar and hydrogen energy will remain available for infinite period. One of the reasons of great worry for all of us... 
Metal hydrides | Applications of hydrogen energy | Hydrogen storage | LA(28.9)NI(67.55)SI(3.55) | ELECTROCHEMISTRY | OBLIQUELY DEPOSITED MMNI(4.5)AL(0.5) | MECHANISM | ENERGY & FUELS | LANI5 | CHEMISTRY, PHYSICAL | ALLOYS | KINETICS | FETI THIN-FILMS | ABSORPTION | Energy minerals | Electric vehicles | Fossil fuels | Cars | Construction | Electricity | Fuels | Automobiles | Automotive engineering
Journal Article
International Journal of Hydrogen Energy, ISSN 0360-3199, 10/2011, Volume 36, Issue 20, pp. 12892 - 12901
Chou model was used to analyze the influences of LaNi content, preparation method, temperature and initial hydrogen pressure on the hydriding kinetics of... 
Hydrogen storage materials | composites | Model | Mg-LaNi | Kinetics | ELECTROCHEMISTRY | ENERGY & FUELS | LANI5 | DECOMPOSITION | CHEMISTRY, PHYSICAL | COMBUSTION SYNTHESIS | HYDROGEN STORAGE PROPERTIES | Mg-LaNi5 composites | MAGNESIUM HYDRIDE | ALLOYS | ABSORPTION | MICROSTRUCTURE
Journal Article
Journal of Alloys and Compounds, ISSN 0925-8388, 12/2013, Volume 580, pp. S179 - S182
•Vanadium prevents the pulverization of LaNi5.•H absorption capacity LaNi5–V composite is higher than LaNi5.•H absorption kinetics of LaNi5–V composite is... 
H absorption kinetics | LaNi5 | Ball-milling | Composite | Vanadium
Journal Article
International Journal of Hydrogen Energy, ISSN 0360-3199, 12/2015, Volume 40, Issue 47, pp. 16921 - 16927
The aim of this study is to understand the remarkable improvements achieved on the hydrogenation properties of TiFe alloy modified by Zr7Ni10 alloy. For this... 
TiFe alloy | Additives | Atmospheric condition | Microstructure | Moderate temperature-pressure | ELECTROCHEMISTRY | ENERGY & FUELS | LANI5 | CHEMISTRY, PHYSICAL | TITANIUM | H-2 | ABSORPTION PROPERTIES | HYDRIDING CHARACTERISTICS | SURFACE PROCESSES | FETI | ZIRCONIUM
Journal Article
International Journal of Hydrogen Energy, ISSN 0360-3199, 03/2018, Volume 43, Issue 9, pp. 4415 - 4427
This work presents results of the experimental studies (XRD, SEM, PCT) of hydride forming intermetallides used in the first (LaNi5) and the second... 
Degradation | Metal hydride | AB5 | Hydrogen compression | ELECTROCHEMISTRY | THERMODYNAMIC PROPERTIES | ENERGY & FUELS | LANI5 | CHEMISTRY, PHYSICAL | MODEL | STORAGE PROPERTIES | ALLOYS | SYSTEMS | DIFFRACTION | ABSORPTION | INTERMETALLIC COMPOUNDS
Journal Article
International Journal of Hydrogen Energy, ISSN 0360-3199, 01/2018, Volume 43, Issue 2, pp. 580 - 591
Ti-V-based alloys possess the tremendous hydrogen storage capacity, but low electrochemical activity. In order to improve the electrochemical properties of... 
LaNi5 | Hydrogen storage | Structural feature | Composite | Ti-V-Based alloy | LaNi
Journal Article
International Journal of Hydrogen Energy, ISSN 0360-3199, 2009, Volume 34, Issue 8, pp. 3417 - 3424
Journal Article
European Physical Journal B, ISSN 1434-6028, 01/2005, Volume 43, Issue 1, pp. 19 - 27
In order to obtain faster hydrogen sorption kinetics, MgH2-Fe nanocomposites were prepared by high-energy ball milling. The MgH2 decomposition was studied in... 
MAGNESIUM | PHYSICS, CONDENSED MATTER | HYDRIDES | KINETICS | MG-LANI5 | SORPTION
Journal Article
Journal of Alloys and Compounds, ISSN 0925-8388, 09/2014, Volume 608, pp. 14 - 18
•The Ce2Ni7-type crystal structure of Sm2Co7 compound was confirmed.•β and γ phases were identified as Sm2Co7H2.9 and Sm2Co7H6.4, respectively.•The desorption... 
Thermodynamics | Sm2Co7 | Hydrogen storage | Kinetics | MECHANISM | CRYSTAL-STRUCTURE | BEHAVIOR | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | LANI5 | CHEMISTRY, PHYSICAL | HYDRIDE | ALLOYS | MAGNETIC-PROPERTIES | ABSORPTION
Journal Article
International Journal of Hydrogen Energy, ISSN 0360-3199, 11/2017, Volume 42, Issue 44, pp. 27154 - 27164
Multicomponent high entropy alloys based on LaNi phase are investigated as hydrogen storage materials. The multicomponent La–Ni–Fe–V–Mn alloys are produced... 
High entropy alloys | Hydrogen storage | Hydrides | Dehydrogenation | ELECTROCHEMISTRY | ENERGY & FUELS | BEHAVIOR | LANI5 | CHEMISTRY, PHYSICAL | DECOMPOSITION MECHANISMS | PARTIAL SUBSTITUTION | HYDRIDE | Metal powders | Metal powder products | Hydrogen | Analysis | Alloys
Journal Article
Journal of Alloys and Compounds, ISSN 0925-8388, 02/2018, Volume 735, pp. 2675 - 2684
Low thermal conductivity of metal hydride alloys significantly affects the sorption performance of hydrogen storage devices. Upon hydrogenation they also exert... 
Hydrogen storage | Metal hydride | Simulation | Wall strain | Aluminum foam | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | LANI5 | CHEMISTRY, PHYSICAL | PACKED-BED | VESSELS | REACTOR | MASS-TRANSFER | ABSORPTION | STRESS | ALLOY
Journal Article
Journal of Alloys and Compounds, ISSN 0925-8388, 10/2015, Volume 645, pp. S490 - S495
•The La–Mg–Ni-based alloys were prepared using three metallurgical technologies.•Mechanical alloying and powder sintering to produce the alloys is proposed.•Al... 
Powder metallurgy | Electrochemical properties | Hydrogen absorbing materials | DIFFUSIVITY | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | LANI5 | CHEMISTRY, PHYSICAL | BATTERIES | ALUMINUM | MANGANESE | KINETICS | ELECTRODE | ABSORPTION
Journal Article
No results were found for your search.

Cannot display more than 1000 results, please narrow the terms of your search.