Effects of Ti on the cycle life of amorphous MgNi-based alloy prepared by ball milling

Han, Sang-Cheol; Lee, Paul S.; Jai-Young, Lee; Züttel, Andreas; Schlapbach, L.

doi:10.1016/s0925-8388(00)00753-2

Cited by 91 publications

(51 citation statements)

References 13 publications

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“…The bulk electrode had a one-plateau potential (-0.8 V) and lost 80% of its maximum capacity within 10 cycles [20][21][22]. And also, it has been reported that the degradation mechanism is related with the oxidation of magnesium [15,22]. The magnesium oxide layer did not cause a significant loss of hydrogen storage capacity, but prevented the hydrogen transfer at the surface and hydrogen diffusion through the surface [15].…”

Section: Resultsmentioning

confidence: 94%

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A study on the electrochemical properties of an Mg−Ni based thin film electrode for a microbattery

et al. 2001

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In order to investigate the possibility of a microbattery using an Mg 2 Ni type alloy, we have studied the electrochemical properties of the Mg 1-x Ni x (x=0.33, 0.15, 0.10) thin film electrode. The thin films were prepared by DC magnetron co-sputtering using Mg and Ni targets and had an amorphous structure. The discharge capacities of the Mg 1-x Ni x (x=0.33, 0.15, 0.10) films increased as the Mg content increased, that of the Mg 0.9 Ni 0.1 electrode increased with repeated charge-discharge cycles reached the maximum value, 228 mAh/g, after 10 cycles. The surface morphology of the film was changed to a needle-type porous structure by cycling.

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Section: Resultsmentioning

confidence: 94%

“…In addition, the crystalline Mg 2 Ni based electrode showed a very low discharge capacity [14]. Most of the researchers made an amorphous Mg 2 Ni type alloy by high-energy ball milling [15][16][17]. The melt-spin technique was also used [18].…”

Section: Introductionmentioning

confidence: 99%

A study on the electrochemical properties of an Mg−Ni based thin film electrode for a microbattery

et al. 2001

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“…Since it contains Ni, which is considered as a good agent [19,21] facilities the dissociation of the dihydrogen. Else the presence of the Ti which prevents the alloy corrosion and pulverization [22] is viewed as a good factor for the alloy cycle life during hydrogenation [23][24][25][26][27][28]. Moreover, the disorder of the structure, as a result of the mechanical milling, is also an agent for the effectiveness of hydriding as it absorbs great amounts of hydrogen at room temperature than its polycrystalline analog does.…”

Section: Structure and Morphology Of The As-milled Powdermentioning

confidence: 99%

Morphologic, Structural, Steric, Energetic and Thermodynamic Studies of the Mechanical Alloy Mg50Ni45Ti5 for Hydrogen Storage

Mechi¹,

Khemis²,

Dhaou³

et al. 2017

J Phys Chem Biophys

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“…However, the poor hydriding/dehydriding kinetics and high thermodynamical stability of Mg 2 NiH 4 (requiring 280°C for 1 bar hydrogen [1]) become the obstacle for the practical use for hydrogen storage. Mn [2,3] and Ti [4] have been experimentally added into Mg 2 Ni for improving its hydrogen storage properties.…”

Section: Introductionmentioning

confidence: 99%

Advanced study of hydrogen storage by substitutional doping of Mn and Ti in Mg₂Ni phase

Elkedim

Huang

Bassir

2014

Int. J. Simul. Multidisci. Des. Optim.

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-The substitutional doping of Mn and Ti in Mg 2 Ni phase has been investigated by first principles density functional theory calculations. The calculation of enthalpy of formation shows that among the four different lattice sites of Mg(6f), Mg(6i), Ni(3b) and Ni(3d) in Mg 2 Ni unit cell, the most preferable site of substitution of Mn in Mg 2 Ni lattice has been confirmed to be Mg(6i) lattice site. The most preferable site of Ti substitution in Mg 2 Ni lattice is Mg(6i) position and the stability of Ti-doped Mg 2 Ni decreases with the increase of substitution quantity of Ti for Mg.

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Effects of Ti on the cycle life of amorphous MgNi-based alloy prepared by ball milling

Cited by 91 publications

References 13 publications

A study on the electrochemical properties of an Mg−Ni based thin film electrode for a microbattery

A study on the electrochemical properties of an Mg−Ni based thin film electrode for a microbattery

Morphologic, Structural, Steric, Energetic and Thermodynamic Studies of the Mechanical Alloy Mg50Ni45Ti5 for Hydrogen Storage

Advanced study of hydrogen storage by substitutional doping of Mn and Ti in Mg₂Ni phase

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Effects of Ti on the cycle life of amorphous MgNi-based alloy prepared by ball milling

Cited by 91 publications

References 13 publications

A study on the electrochemical properties of an Mg−Ni based thin film electrode for a microbattery

A study on the electrochemical properties of an Mg−Ni based thin film electrode for a microbattery

Morphologic, Structural, Steric, Energetic and Thermodynamic Studies of the Mechanical Alloy Mg50Ni45Ti5 for Hydrogen Storage

Advanced study of hydrogen storage by substitutional doping of Mn and Ti in Mg2Ni phase

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Advanced study of hydrogen storage by substitutional doping of Mn and Ti in Mg₂Ni phase