Rechargeable non-aqueous Li-O 2 battery is regarded as one of the most promising energy-storage technologies on account of its high energy density. It is believed that the rational design of three-dimensional (3D) architecture for catalyst is a key factor for the remarkable performance. Metal-organic frameworks (MOFs) derived materials possess excellent architecture, which is beneficial for Li-O 2 batteries. In this work, ZIF-67 is used as precursor template and calcinated under different temperature to produce Co 3 O 4 crystals. When the anneal treatment is under 350 °C, the derived Co 3 O 4 nanocage holds the most complete skeleton, which provides better charge transfer ability as well as O 2 and Li + diffusion. Meanwhile, the Co 3 O 4 nanocage owns more oxygen vacancies, offering more active sites. With the synergistic effect of nanocage structure and active sites, the Co 3 O 4 nanocage stably delivers a large specific capacity of 15,500 mAh·g -1 as well as a long cycle-life of 132 cycles at limited discharge capacity of 1,000 mAh·g -1 under discharge/charge current density of 0.5 A·g -1 .[Figure not available: see fulltext.].
CITATION STYLE
Jiang, Z., Sun, H., Shi, W., Zhou, T., Hu, J., Cheng, J., … Sun, S. (2019). Co 3 O 4 nanocage derived from metal-organic frameworks: An excellent cathode catalyst for rechargeable Li-O 2 battery. Nano Research. https://doi.org/10.1007/s12274-019-2388-6
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