| 1 |
Structural evolution and capacity degradation mechanism of LiNi0.6Mn0.2Co0.2O2 cathode materials
Ruan YL, Song XY, Fu YB, Song CY, Battaglia V
Journal of Power Sources, 400, 539, 2018 |
| 2 |
Degradation effects on the surface of commercial LiNi0.5Co0.2Mn0.3O2 electrodes
Boerner M, Horsthemke F, Kollmer F, Haseloff S, Friesen A, Winter M, Schappacher FM
Journal of Power Sources, 335, 45, 2016 |
| 3 |
New insights into the pulverization of LaNi5-based alloys with different Co contents from electrochemical acoustic emission measurements
Etiemble A, Bernard P, Idrissi H, Roue L
Electrochimica Acta, 186, 112, 2015 |
| 4 |
Effect of Ti and Al on the pulverization resistance of MgNi-based metal hydride electrodes evaluated by acoustic emission
Etiemble A, Idrissi H, Roue L
International Journal of Hydrogen Energy, 38(2), 1136, 2013 |
| 5 |
In situ investigation of the volume change and pulverization of hydride materials for Ni-MH batteries by concomitant generated force and acoustic emission measurements
Etiemble A, Idrissi H, Meille S, Roue L
Journal of Power Sources, 205, 500, 2012 |
| 6 |
On the decrepitation mechanism of MgNi and LaNi5-based electrodes studied by in situ acoustic emission
Etiemble A, Idrissi H, Roue L
Journal of Power Sources, 196(11), 5168, 2011 |
| 7 |
In-situ study of the cracking of metal hydride electrodes by acoustic emission technique
Didier-Laurent S, Idrissi H, Roue L
Journal of Power Sources, 179(1), 412, 2008 |
