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A metal hydride is a compound formed between a metal and hydrogen, in which the hydrogen atoms are bonded to the metal atoms through chemical bonds. Metal hydrides have a wide range of applications as energy storage materials, catalysts, and structural materials.
References | Technology Area | Engineering System | Pros | Cons | Suggested Hydrides |
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[3]—Krane et al., 2022 | Energy Storage | Two-reactor metal hydride system |
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MgH2, TiFeH2, LaNi5H6 |
[4]—Zhang et al., 2023 | Catalysis | Ammonia synthesis |
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Lanthanum hydride |
[5]—Lv, Y. et al., 2023 | Energy storage | Magnesium hydride conversion electrode |
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Magnesium hydride |
[6]—Zhou et al., 2023 | Fuel cells | Hydrogen feeding system |
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RE-based and Ti-based multicomponent metal hydrides |
[7]—Tiwari and Sharma, 2023 | Energy storage | Metal hydride reactor and thermocline-based heat storage system |
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MgH2 |
[8]—Alok Kumar, P. Muthukumar, 2022 | Hydrogen storage and purification |
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La0.9Ce0.1Ni5 | |
[9]—Krishnamoorthy et al., 2023 | Battery modeling | Lithium–ion and nickel–metal hydride batteries |
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Nickel-metal hydride battery | |
[10]—Zhang et al., 2022 | Chemicals | CO2 capture |
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Nickel hydride complexes |
[11]—Brestovič, T. et al. 2022 | Metal Hydride Compressors | Heat pump-based compression system |
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LaNi5 |
[12]—Massaro et al., 2023 | On-board hydrogen storage technologies | Fuel cell systems for aircraft electrification |
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[13]—Nguyen and Shabani, 2022 | Metal hydride hydrogen storage | Standalone solar hydrogen systems |
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[14]—Eadi et al., 2023 | Hydrogen gas sensing | Pd-Ni alloy thin films |
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[15]—Kumar et al., 2022 | Metal hydride-based hydrogen storage | Standalone microgrids |
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MgH2, TiFeH2, LaNi4.8Al0.2H11.3 |
[16]—Tian et al., 2022 | Hybrid rocket propulsion | Solid-fuel additives |
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[17]—Lee et al., 2022 | Hydrogen storage | Magnesium hydrogen tank |
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MgH2 |
[18]—Sezgin et al., 2022 | Hydrogen energy systems | Underwater applications |
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TiFe, LaNi5, AB2 (MmNi3.6Co0.7Mn0.4Al0.3), MgH2, LiBH4 |
[19]—Kailiang Ren, Jiajia Miao, et al., 2022 | Electrochemical energy storage | Batteries |
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NiMH |
[20]—Dinesh Dashbabu, E. Anil Kumar, I.P. Jain, 2022 | Hydrogen compression | Metal hydride hydrogen compressor |
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LaNi5H6-xAlx |
[21]—Sayantan Jana et al., 2022 | Heating and cooling | Embedded cooling tube type metal hydride reactor |
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Mg2NiH4, Top of Form |
bottom of form | |||||
[22]—Singh et al., 2022 | Renewable energy | Reversible SOFC, hydrogen storage, rankine cycle, absorption refrigeration |
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LaNi4.8Al0.2, MgH2, Ni-MH alloy, CaH2 |
[23]—H. Chang, Y.B. Tao, H. Ye, 2023 | Hydrogen and thermal storage | Sandwich reaction bed filled with metal hydride and thermochemical material |
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