2021
DOI: 10.1016/j.jechem.2020.02.008
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Aluminum hydride for solid-state hydrogen storage: Structure, synthesis, thermodynamics, kinetics, and regeneration

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Cited by 82 publications
(34 citation statements)
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“…This indicates that the formation of surface oxide can improve its stability. The enthalpy of dehydrogenation of determined by DSC (Differential Scanning Calorimetry) is 5.7–6.6 kJ/mol of H 2 [ 66 ]. Therefore, AlH 3 is easy to release hydrogen at elevated temperatures.…”
Section: Stabilitymentioning
confidence: 99%
“…This indicates that the formation of surface oxide can improve its stability. The enthalpy of dehydrogenation of determined by DSC (Differential Scanning Calorimetry) is 5.7–6.6 kJ/mol of H 2 [ 66 ]. Therefore, AlH 3 is easy to release hydrogen at elevated temperatures.…”
Section: Stabilitymentioning
confidence: 99%
“…The development of hydrogen storage with excellent performance as well as high hydrogen-carrying capacity is crucial for applications of solid-state hydrogen storage. [3][4][5][6] Currently, metal hydrides and light complex hydrides are considered promising ways to store hydrogen in a solidstate form. [7][8][9][10][11][12] Sodium alanate (NaAlH 4 ) is often investigated as a solid-state hydrogen storage material owing to its reasonable cost and high theoretical hydrogen capacity.…”
Section: Introductionmentioning
confidence: 99%
“…Hydrogen may be stored in three forms: liquid, gaseous and solid‐state forms. The development of hydrogen storage with excellent performance as well as high hydrogen‐carrying capacity is crucial for applications of solid‐state hydrogen storage 3‐6 . Currently, metal hydrides and light complex hydrides are considered promising ways to store hydrogen in a solid‐state form 7‐12 .…”
Section: Introductionmentioning
confidence: 99%
“…However, the unfavorably high thermal stability and sluggish dehydrogenation kinetics significantly limit its practical application (Luo et al, 2019;Zhang et al, 2020a). Many attempts have been carried out to improve the dehydrogenation and rehydrogeantion properties of MgH 2 , including alloying (Hardian et al, 2018;Hui et al, 2020;Ali and Ismail, 2021), nanoengineering (Zhang et al, 2020a;Zhang et al, 2021c;Thi Thu et al, 2021), and catalyst addition (Zhong et al, 2018;Li et al, 2019b;Liu et al, 2020b;Zhang et al, 2020b;Ding et al, 2020;Singh et al, 2020;Sun et al, 2020;Wang and Deng, 2020;Yao et al, 2020;Zeng et al, 2020;Zhu et al, 2020;Lu et al, 2021a;Lu et al, 2021b;Liu et al, 2021c;, etc. Li is also a H-absorbing metal and has a hydrogen capacity of 11.5 wt.%.…”
Section: Introductionmentioning
confidence: 99%