Flakelike LiCoO2 with Exposed {010} Facets As a Stable Cathode Material for Highly Reversible Lithium Storage

A thick and dense flakelike LiCoO2 with exposed {010} active facets is synthesized using Co(OH)J, nanoflake as a self-sacrificial template obtained from a simple coprecipitation method, and served as a cathode material for lithium ion batteries. When operated at a high cutoff voltage up to 4.5 V, the resultant LiCoO2 exhibits an outstanding rate capability, delivering a reversible discharge capacity as high as 179, 176, 168, 116, and 96 mA h g(-1) at 25 degrees C under the current rate of 0.1, 0:5, 1, 5, and 10 degrees C, respectively. When charge/discharge cycling at 55 degrees C, a'high specific capacity of 148 mA h retention) can be retained after 100 cycles under 1 degrees C, :demonstrating excellent cycling and thermal stability. Besides, the flakelike LiCoO2 also shows an impressive low-temperature electrochemical activity with specific capacities of 175 (0.1 degrees C) and 154 mA h g(-1) (1 degrees C) at-10 degrees C, being the highest ever reported for a subzero temperature lithium storage capability, as well as 52% capacity retention even after 80 cycles under 1 degrees C. Such superior high voltage electrochemical performances of the flakelike LiCoO2 operated at a wide temperature range are mainly attributed to its unique hierarchical structure with specifically exposed facets. The exposed {010} active facets provide a preferential crystallographic orientation for Li-ion migration, while the micrometer-sized secondary particles agglomerated by submicron primary LiCoO2 flakes endow the electrode with better structural integrity, both of which ensure the LiCoO2 cathode to manifest remarkably enhanced reversible lithium storage properties.