| 초록 |
Nowadays, organic Lithium ion battery (LIB) has been advanced for applying to Electric Vehicle (EV) or Energy Storage System (ESS) energy storage device. However, kinetic limit from its organic electrolyte offsets the power density of lithium ion battery, which hinders commercialization of EV due to charging time. So, the aqueous system was selected to improve the power density of lithium ion battery with stable LiMn2O4 (LMO) cathode materials. Unfortunately, commercial LMO has low cycle stability in aqueous system, so newly synthesized LiMn2O4 nanorod was introduced to improve cycle stability in various aqueous electrolyte with enhanced power density. LiMn2O4 nanorod was synthesized with facile hydrothermal synthesis and thermal treatment. The electrochemical performance test was proceeded with various aqueous electrolyte and compared with commercial LMO. LMO nanorod showed enhanced cycle stability and capacity retention compared to commercial LMO, also, power density was improved. |
