Densely pillared holey-graphene block with high-level nitrogen doping enabling ultra-high volumetric capacity for lithium ion storage

Publication date: Available online 22 October 2018Source: CarbonAuthor(s): Longhai Zhang, Jingming Yue, Tong Wei, Zheng Liu, Jiali Zhou, Chaoqun Liu, Han Jiang, Zimu Jiang, Zhuangjun FanAbstractDeveloping high volumetric capacity and long cycle-life anode materials to meet large-scale lithium-ion batteries (LIBs) still remains a great challenge. In the work, densely pillared holey-graphene block with high N-doping (P-NHG) has been successfully synthesized through thermal decomposition of (NH4)6Mo7O24 in-between stacked GO sheets. The dense graphene building block processes a high packing density of 2.53 g cm−3, high nitrogen doping (19.2 at%), numerous holes on the graphene sheet, and ∼5 nm Mo2C nanoparticles as the pillars in-between graphene sheets, facilitating rapid ion diffusion and storage, and ensuring structural stability during Li ion storage. As a result, the P-NHG electrode can deliver both high gravimetric capacity of 1221 mAh g−1 and ultrahigh volumetric capacity of 3089 mAh cm−3 at 0.1 A g−1, as well as excellent cyclability (713 mAh g−1/1803 mAh cm−3 after 300 cycles at 0.5 A g−1). The novel design of densely pillared holey-structure materials represents greatly improved properties such as superior cyclability, and high volumetric capacity for LIBs to enable the practical applications.Graphical abstract
Source: Carbon - Category: Materials Science Source Type: research