Journal
JOURNAL OF MATERIALS CHEMISTRY A
Volume 4, Issue 10, Pages 3735-3742Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/c5ta10622b
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Funding
- LaSPACE
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The exploration of new inexpensive rechargeable batteries with high energy-density electrodes is a key to integrate renewable sources such as solar and wind, and address sustainability issues. Herein, a facile and scalable method is developed to prepare a two-dimensional earth-abundant jarosite-KFe3(SO4)(2)(OH)(6)/rGO hybrid via a solution-phase oxidation process at elevated temperature. In this synthesis, single-layer graphene sheets serve as both structure-directing agents and growth platforms to directly grow monocrystalline KFe3(SO4)(2)(OH)(6) nanoplates with unique hexagonal shapes, forming a KFe3(SO4)(2)(OH)(6)/rGO hybrid. As a cathode for lithium batteries, the hybrid structure exhibits a high reversible capacity of 120.5 mA h g(-1) after 100 cycles at a specific current of 2C and thus retains 88% of the maximum capacity. The monocrystalline jarosite-KFe3(SO4)(2)(OH)(6)-nanoplates/rGO hybrid exhibits a discharge capacity of 143.6, 113.9, 98.2, 83.9 and 65.9 mA h g(-1) at 1, 2, 5, 10, and 20C, respectively, and retains a specific capacity of 134.4 mA h g(-1) when the specific current returns from 20C to 1C, displaying an excellent rate capability. At a high rate of 10C, the jarosite-KFe3(SO4)(2)(OH)(6)/rGO composites maintained 70.7 mA h g(-1) after 300 cycles with a capacity retention of 78.2%, indicating remarkable cycling stability even at a high rate. Compared with KFe3(SO4)(2)(OH)(6) particles, the KFe3(SO4)(2)(OH)(6)/rGO nanocomposites exhibit remarkably prolonged cycling life and improved rate capability. Therefore, the earth-abundant jarosite-KFe3(SO4)(2)(OH)(6)/rGO hybrid demonstrates great potential for application as a high-performance cathode material in new-generation lithium-ion rechargeable batteries.
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