期刊
ELECTROCHIMICA ACTA
卷 389, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.electacta.2021.138713
关键词
Perovskite fluorides; Na-ion storage; Conversion and insertion mechanisms; Vacancy defects; Pseudocapacitance
资金
- National Natural Sci-ence Foundation of China [22078279]
Na-based dual-ion batteries (Na-DIBs) and capacitors (NICs) have gained attention due to their simple design, environmentally friendly nature, feasibility, and low cost. In this study, a new vacancy defective perovskite fluorides K0.82Co0.43Mn0.57F2.66@reduced graphene oxide (KCMF(1-1)@rGO) nanocrystal was introduced as a promising anode material for Na-DIBs and NICs, showcasing superior specific capacity, rate, and cycling behavior. The designed Na-DIBs and NICs with the KCMF(1-1)@rGO anode exhibited remarkable performance, indicating a promising application for Na-ion energy storage.
Na-based dual-ion batteries (Na-DIBs) and capacitors (NICs) have received particular attention in the recent years because of the advantages of simple design, environmentally friendly, feasibility, and low cost, etc. Herein, we report a new vacancy defective perovskite fluorides K0.82Co0.43Mn0.57F2.66@reduced graphene oxide (KCMF(1-1)@rGO) nanocrystal as a promising anode material for Na-DIBs and NICs, showing the pseudocapacitance-dominated conversion-insertion hybrid mechanisms. Thanks for the synergistic effect of Co/Mn active species, the fast kinetics of pseudocapacitive behavior, the improved ion storage ability of K-ion vacancy, and the unique K0.82Co0.43Mn0.57F2.66@rGO nano-heterostructures, the KCMF(1-1)@rGO anode exhibits superior specific capacity, rate and cycling behavior (176-84 mAh g(-1) at 0.05-1 A g(-1), 67 % retention/500 cycles/0.3 A g(-1)). Furthermore, the designed Na-DIBs and NICs with the KCMF(1-1)@rGO anode and graphite (KS6)/activated carbon (AC) as cathodes demonstrate remarkable performance, showing the 145.9 Wh kg(-1)/0.83 kW kg(-1)/60%/1000 cycles/5 A g(-1) and 66.51 similar to 29 Wh kg(-1)/0.53 similar to 16.84 kW kg(-1)/81%/1000 cycles/5 A g(-1) for the KCMF(1-1)@rGO//KS6 Na-DIBs and KCMF(1-1)@rGO//AC NICs respectively, indicating a promising application for Na-ion energy storage. (C) 2021 Elsevier Ltd. All rights reserved.
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