Journal
ELECTROCHIMICA ACTA
Volume 295, Issue -, Pages 558-568Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.electacta.2018.10.202
Keywords
Zinc ferrite; Carbon textile; Pseudo-capacitance; Li-ion diffusion
Categories
Funding
- NSFC [51572040]
- Fundamental Research Funds for the Central Universities [2018CDJDWL0011, 106112017CDJXY300002, 2018CDQYWL0046]
- Natural Science Foundation of Chongqing [cstc2017jcyjAX0307]
- Science and Technology Research Project of Chongqing Municipal Education Commission of China [KJ1400607, KJ1401206]
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Zinc ferrite as an electrode material for electrochemical energy storage has attracted much attention due to its good pseudocapacitive performance. However, Li-ion diffusion behavior in zinc ferrite has not been clearly understood, therefore, further improvements are still facing challenges. Herein, we report a controlled growth of single crystal mesoporous zinc ferrite (ZnFe2O4) nanowall arrays on highly flexible carbon textile for flexible supercapacitors. Li-ion hopping behavior and energy barrier in ZnFe2O4 are calculated by the density functional theory. The electrode based on the ZnFe2O4 nanowall arrays exhibits high specific capacity of 162.7 mAhg(-1) at 3.35 Ag-1 (1170 Fg(-1) at 3.35 Ag-1) with excellent capacity retention of 96.4% after 8000 cycles. Furthermore, a flexible symmetric solid-state supercapacitor based on the ZnFe2O4 nanowall arrays is fabricated, which exhibits excellent capacitive performance (620 Fg(-1) at 5 mVs(-1)) with high flexibility and super-long life by retaining 97.35% of its initial capacitance after 10000 cycles, and high energy density of 85 Wh kg(-1) at power density of 1000 Wkg(-1). The results indicate that the ZnFe2O4 nanowall arrays is a promising material for the future generation of high-performance supercapacitors. The finding of Li-ion diffusion behavior presents a better understanding of the pseudocapacitive contribution of spinel structured binary metal oxides. (C) 2018 Elsevier Ltd. All rights reserved.
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