| 1 |
Influence of Mg doping on the performance of LiNiO2 matrix ceramic nanoparticles in high-voltage lithium-ion cells
Sathiyamoorthi R, Shakkthivel P, Ramalakshmi S, Shul YG
Journal of Power Sources, 171(2), 922, 2007 |
| 2 |
Effect of (Al, Mg) substitution in LiNiO2 electrode for lithium batteries
Kim J, Kim BH, Baik YH, Chang PK, Park HS, Amine K
Journal of Power Sources, 158(1), 641, 2006 |
| 3 |
Thermal transformations of iron-substituted lithium nickelate studied by in situ X-ray diffraction
Vicente CP, Tirado JL, Fraisse B
Solid State Ionics, 158(3-4), 427, 2003 |
| 4 |
Nickel dioxide polymorphs as lithium insertion electrodes
Arai H, Tsuda M, Saito K, Hayashi M, Sakurai Y
Electrochimica Acta, 47(17), 2697, 2002 |
| 5 |
A comparative study on the substitution of divalent, trivalent and tetravalent metal ions in LiNi1-xMxO2 (M = Cu2+, Al3+ and Ti4+)
Kim J, Amine K
Journal of Power Sources, 104(1), 33, 2002 |
| 6 |
Effect of magnesium substitution on the cycling behavior of lithium nickel cobalt oxide
Pouillerie C, Perton F, Biensan P, Peres JP, Broussely M, Delmas C
Journal of Power Sources, 96(2), 293, 2001 |
| 7 |
Lithium nickelate electrodes with enhanced high-temperature performance and thermal stability
Arai H, Tsuda M, Sakurai Y
Journal of Power Sources, 90(1), 76, 2000 |
| 8 |
Low-temperature synthesis of lithium nickelate positive active material from nickel hydroxide for lithium cells
Maruta J, Yasuda H, Yamachi M
Journal of Power Sources, 90(1), 89, 2000 |
| 9 |
Effect of iron on the electrochemical behaviour of lithium nickelate: from LiNiO2 to 2D-LiFeO2
Delmas C, Prado G, Rougier A, Suard E, Fournes L
Solid State Ionics, 135(1-4), 71, 2000 |
| 10 |
Mixed cobalt and iron substituted lithium nickelate: a structural and electrochemical study
Prado G, Fournes L, Delmas C
Solid State Ionics, 138(1-2), 19, 2000 |
