| 1 |
Vacuum drying characteristics of LiNi0.5Co0.2Mn0.3O2 battery powder
Zhao F, Han F, Zhang SW, Zhang ZJ
Advanced Powder Technology, 32(1), 10, 2021 |
| 2 |
Effect of hydrometallurgical process parameters on the Mn2O3 nano catalysts derived from spent batteries used in the plasma catalytic oxidation of BTX
Hoseini S, Rahemi N, Allahyari S, Tasbihi M, Ghareshabani E
Advanced Powder Technology, 31(10), 4187, 2020 |
| 3 |
Production of a NiO/Al primary battery employing powder-based electrodes
Burrola S, Horii M, Gonzalez-Guerrero MJ, Bachman JC, Gomez FA
Electrophoresis, 41(1-2), 131, 2020 |
| 4 |
Production of a NiO/Al primary battery employing powder-based electrodes
Burrola S, Horii M, Gonzalez-Guerrero MJ, Bachman JC, Gomez FA
Electrophoresis, 41(1-2), 131, 2020 |
| 5 |
Vacuum drying kinetics and energy consumption analysis of LiFePO4 battery powder
Zhao F, Han F, Zhang SW, Tian HR, Yang Y, Sun K
Energy, 162, 669, 2018 |
| 6 |
Preparation of polypyrrole nanocomposites for supercapacitor using spent battery powder as raw materials
Duan XJ, Deng JX, Wang X, Guo JS, Liu P
Electrochimica Acta, 210, 646, 2016 |
| 7 |
Manufacturing conductive polyanilineigraphite nanocomposites with spent battery powder (SBP) for energy storage: A potential approach for sustainable waste management
Duan XJ, Deng JX, Wang X, Guo JS, Liu P
Journal of Hazardous Materials, 312, 319, 2016 |
| 8 |
Influence of the reductive preparation conditions on the morphology and on the electrochemical performance of Sn/SnSb
Trifonova A, Wachtler M, Wagner MR, Schroettner H, Mitterbauer C, Hofer F, Moller KC, Winter M, Besenhard JO
Solid State Ionics, 168(1-2), 51, 2004 |
