| 1 |
Comparative study on experiments and simulation of blended cathode active materials for lithium ion batteries
Appiah WA, Park J, Van Khue L, Lee Y, Choi J, Ryou MH, Lee YM
Electrochimica Acta, 187, 422, 2016 |
| 2 |
Characterization of Li-rich xLi(2)MnO(3)center dot(1-x)Li[MnyNizCo1-y-z]O-2 as cathode active materials for Li-ion batteries
Jo YN, Prasanna K, Park SJ, Lee CW
Electrochimica Acta, 108, 32, 2013 |
| 3 |
Recovery of metals from spent lithium-ion batteries with organic acids as leaching reagents and environmental assessment
Li L, Dunn JB, Zhang XX, Gaines L, Chen RJ, Wu F, Amine K
Journal of Power Sources, 233, 180, 2013 |
| 4 |
Sulfides organic polymer: Novel cathode active material for rechargeable lithium batteries
Zhang JY, Kong LB, Zhan LZ, Tang J, Zhan H, Zhou YH, Zhan CM
Journal of Power Sources, 168(1), 278, 2007 |
| 5 |
Cathode properties of pyrophosphates for rechargeable lithium batteries
Uebou Y, Okada S, Egashira M, Yamaki JI
Solid State Ionics, 148(3-4), 323, 2002 |
| 6 |
Year 2000 R&D status of large-scale lithium ion secondary batteries in the national project of Japan
Tanaka T, Ohta K, Arai N
Journal of Power Sources, 97-98, 2, 2001 |
| 7 |
Charge-discharge properties of composites of LiMn2O4 and polypyrrole as positive electrode materials for 4 V class of rechargeable Li batteries
Kuwabata S, Masui S, Yoneyama H
Electrochimica Acta, 44(25), 4593, 1999 |
