2019
DOI: 10.1016/j.ijhydene.2019.01.192
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Ab initio study on destabilizing mechanism of magnesium hydride by Ti and Fe co-doping

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Cited by 12 publications
(8 citation statements)
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“…In the case of MgH 2 (Figure 8(a)), the DOS of Mg‐3 s was overlapped with those of H‐1 s in the energy range of −6.7~0.3 eV and 3~5 eV, suggesting a strong hybridization between H‐1 s and Mg‐3 s. Their orbital hybridization weakened in the presence of Ni and Co atoms (Figure 8(b)), meaning the weakened bond strength between Mg and H. Meanwhile, new orbital hybridized peaks were formed in the energy range of −2.5~−0.5 eV, which also intensely overlapped with Co‐3d and Ni‐3d, showing electron transfer between Ni/Co and MgH 2 . In summary, the Mg atoms near the Ni and Co sacrificed the orbital hybridization with the H atoms and increased the hybridization with the Ni/Co, which results in the weakening of the orbital hybridization between the Mg atoms and the H atoms [6b,7e,h] . Moreover, the narrowed bandgap of MgH 2 after modifying with Ni and Co demonstrated the enhanced electron transfer ability.…”
Section: Resultsmentioning
confidence: 93%
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“…In the case of MgH 2 (Figure 8(a)), the DOS of Mg‐3 s was overlapped with those of H‐1 s in the energy range of −6.7~0.3 eV and 3~5 eV, suggesting a strong hybridization between H‐1 s and Mg‐3 s. Their orbital hybridization weakened in the presence of Ni and Co atoms (Figure 8(b)), meaning the weakened bond strength between Mg and H. Meanwhile, new orbital hybridized peaks were formed in the energy range of −2.5~−0.5 eV, which also intensely overlapped with Co‐3d and Ni‐3d, showing electron transfer between Ni/Co and MgH 2 . In summary, the Mg atoms near the Ni and Co sacrificed the orbital hybridization with the H atoms and increased the hybridization with the Ni/Co, which results in the weakening of the orbital hybridization between the Mg atoms and the H atoms [6b,7e,h] . Moreover, the narrowed bandgap of MgH 2 after modifying with Ni and Co demonstrated the enhanced electron transfer ability.…”
Section: Resultsmentioning
confidence: 93%
“…Adding additives to MgH 2 is one of the effective methods to overcome thermodynamic and kinetic drawbacks of MgH 2 in hydrogen storage reactions. Previous studies have confirmed that the transition metals (TM) play a prominent catalytic effect on enhancing the hydrogen storage properties of MgH 2 [3c,6b,7] . Loulidi et al [7g] .…”
Section: Introductionmentioning
confidence: 91%
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“…29-37 29-37 Several research groups have also looked into various transition metal-based catalysts in order to increase the performance of Mg/MgH 2 . 18,23,24,[38][39][40][41][42][43][44][45] The use of TiVO 3.5 catalyst resulted in a significant improvement in MgH 2 storage kinetics. 46 TiF 4 is a good catalyst for enhancing the MgH 2 re/dehydrogenation kinetics.…”
Section: Introductionmentioning
confidence: 99%
“…Researchers have published their findings on Mg‐based alloys for hydrogen storage applications 29‐37 . Several research groups have also looked into various transition metal‐based catalysts in order to increase the performance of Mg/MgH 2 18,23,24,38‐45 . The use of TiVO 3.5 catalyst resulted in a significant improvement in MgH 2 storage kinetics 46 .…”
Section: Introductionmentioning
confidence: 99%