Extremely pseudocapacitive interface engineered CoO@3D-NRGO hybrid anodes for high energy/ power density and ultralong life lithium-ion batteries

被引:49
作者
Avvaru, Venkata Sai [1 ,2 ]
Jimenez Fernandez, Ivan [3 ]
Feng, Wenliang [1 ,4 ]
Hinder, Steven J. [5 ]
Castillo Rodriguez, Miguel [1 ]
Etacheri, Vinodkumar [1 ]
机构
[1] IMDEA Mat Inst, Electrochem Div, Calle Eric Kandel 2, Madrid 28906, Spain
[2] Univ Autonoma Madrid, Fac Sci, C Francisco Tomas Y Valiente 7, Madrid 28049, Spain
[3] Univ Rey Juan Carlos, Dept Chem Technol, Madrid 28933, Spain
[4] Univ Politecn Madrid, Dept Mat Sci, ETS Ingn Caminos, Madrid 28040, Spain
[5] Univ Surrey, Fac Engn & Phys Sci, Surface Anal Lab, Guildford GU2 7XH, Surrey, England
来源
CARBON | 2021年 / 171卷
关键词
Conversion reaction; Interfaces; Pseudocapacitance; Engineering; Ultra-long life;
D O I
10.1016/j.carbon.2020.09.058
中图分类号
O64 [物理化学(理论化学)、化学物理学];
学科分类号
070304 ; 081704 ;
摘要
Although secondary Li-ion batteries are widely used for electrochemical energy storage, low energy (100-300 Wh kg(-1)) and power density (250-400 W kg(-1)) are limiting their applications in several areas including long-range electric vehicles. Herein, we demonstrate high energy (400 Wh kg(-1)) and power density (1 kW kg(-1)) Li-ion batteries (considering the weight of both electrodes) based on extremely pseudocapacitive interface engineered CoO@3D-NRGO hybrid anodes. These values are 2.8 and 2.3-fold higher respectively compared to graphite parallel to LiNiMnCoO2 full-cells under similar experimental conditions. Three-dimensional anode architecture presented here composed of ultrafine CoO nanoparticles (similar to 10 nm) chemically bonded to nitrogen-doped reduced graphene-oxide. This hybrid anode demonstrated excellent pseudocapacitance (similar to 92%), specific capacity (1429 mAh g(-1) @ 25 mA g(-1)), rate performance (906 mAh g(-1) @ 5 A g(-1)), and cycling stability (990 mAh g(-1) after 7500 cycles @ 5 A g(-1)). Outstanding electrochemical performance of CoO@3D-NRGO parallel to LiNiMnCoO2 full-cells is credited to the extreme pseudocapacitance of CoO@3D-NRGO anode resulting from Li2O/Co/NRGO nanointerfaces and Co-O-C bonds. The demonstrated strategy of interfacial engineering can also be extended for other environmental friendly/inexpensive transition metal oxide (Fe2O3, MnO2 etc.) anodes for high energy/power density and ultra-long-life Li-ion batteries. (C) 2020 Elsevier Ltd. All rights reserved.
引用
收藏
页码:869 / 881
页数:13
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