Si/NiCo2O4 heterostructures electrodes with enhanced performance for supercapacitor

Mingze Ma; Jing Guo; Yufei Zhang; Ziyang Dai; Wei Huang; Xiaochen Dong

doi:10.1039/c5ra12078k

Si/NiCo₂O₄ heterostructures electrodes with enhanced performance for supercapacitor

Mingze Ma, Jing Guo, Yufei Zhang, Ziyang Dai, Wei Huang, Xiaochen Dong

SCHOOL OF FLEXIBLE ELECTRONICS(FUTURE TECHNOLOGIES)|INSTITUTE OF ADVANCED MATERIALS(IAM)

Nanjing Tech University

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

Silicon doped metal oxides are potential materials for high-performance electrochemical energy storage because of the synergistic effect. In this work, Si/NiCo₂O₄ heterostructures have been successfully synthesized by a two-step solution-phase method. The characterizations demonstrate that the Si nanoslices dispersed uniformly in NiCo₂O_4. Serving as electrochemical electrode, the Si/NiCo₂O₄ heterostructures present high specific capacitance of 1972.1 F g^-1 at a current density of 2 A g^-1 and excellent reversibility with a cycling efficiency of 78% after 2000 cycles, which is approximately two times higher than that of NiCo₂O₄. The outstanding electrochemical performance is mainly attributed to the Si doping effect and synergistic effect between Si and NiCo₂O₄. This work suggests a way to design silicon doped electrode materials with enhanced performance for supercapacitors.

Original language	English
Pages (from-to)	62813-62818
Number of pages	6
Journal	RSC Advances
Volume	5
Issue number	77
DOIs	https://doi.org/10.1039/c5ra12078k
State	Published - 2015

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title = "Si/NiCo2O4 heterostructures electrodes with enhanced performance for supercapacitor",

abstract = "Silicon doped metal oxides are potential materials for high-performance electrochemical energy storage because of the synergistic effect. In this work, Si/NiCo2O4 heterostructures have been successfully synthesized by a two-step solution-phase method. The characterizations demonstrate that the Si nanoslices dispersed uniformly in NiCo2O4. Serving as electrochemical electrode, the Si/NiCo2O4 heterostructures present high specific capacitance of 1972.1 F g-1 at a current density of 2 A g-1 and excellent reversibility with a cycling efficiency of 78% after 2000 cycles, which is approximately two times higher than that of NiCo2O4. The outstanding electrochemical performance is mainly attributed to the Si doping effect and synergistic effect between Si and NiCo2O4. This work suggests a way to design silicon doped electrode materials with enhanced performance for supercapacitors.",

author = "Mingze Ma and Jing Guo and Yufei Zhang and Ziyang Dai and Wei Huang and Xiaochen Dong",

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doi = "10.1039/c5ra12078k",

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T1 - Si/NiCo2O4 heterostructures electrodes with enhanced performance for supercapacitor

AU - Ma, Mingze

AU - Guo, Jing

AU - Zhang, Yufei

AU - Dai, Ziyang

AU - Huang, Wei

AU - Dong, Xiaochen

PY - 2015

Y1 - 2015

N2 - Silicon doped metal oxides are potential materials for high-performance electrochemical energy storage because of the synergistic effect. In this work, Si/NiCo2O4 heterostructures have been successfully synthesized by a two-step solution-phase method. The characterizations demonstrate that the Si nanoslices dispersed uniformly in NiCo2O4. Serving as electrochemical electrode, the Si/NiCo2O4 heterostructures present high specific capacitance of 1972.1 F g-1 at a current density of 2 A g-1 and excellent reversibility with a cycling efficiency of 78% after 2000 cycles, which is approximately two times higher than that of NiCo2O4. The outstanding electrochemical performance is mainly attributed to the Si doping effect and synergistic effect between Si and NiCo2O4. This work suggests a way to design silicon doped electrode materials with enhanced performance for supercapacitors.

AB - Silicon doped metal oxides are potential materials for high-performance electrochemical energy storage because of the synergistic effect. In this work, Si/NiCo2O4 heterostructures have been successfully synthesized by a two-step solution-phase method. The characterizations demonstrate that the Si nanoslices dispersed uniformly in NiCo2O4. Serving as electrochemical electrode, the Si/NiCo2O4 heterostructures present high specific capacitance of 1972.1 F g-1 at a current density of 2 A g-1 and excellent reversibility with a cycling efficiency of 78% after 2000 cycles, which is approximately two times higher than that of NiCo2O4. The outstanding electrochemical performance is mainly attributed to the Si doping effect and synergistic effect between Si and NiCo2O4. This work suggests a way to design silicon doped electrode materials with enhanced performance for supercapacitors.

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DO - 10.1039/c5ra12078k

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Si/NiCo₂O₄ heterostructures electrodes with enhanced performance for supercapacitor

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