Highly Dispersed Cobalt Nanoparticles Embedded in Nitrogen-Doped Graphitized Carbon for Fast and Durable Potassium Storage

Highly Dispersed Cobalt Nanoparticles Embedded in Nitrogen-Doped Graphitized Carbon for Fast and Durable Potassium Storage

Abstract Potassium-ion batteries (KIBs) have great potential for applications in large-scale energy storage devices. However, the larger radius of K+ leads to sluggish kinetics and inferior cycling performance, severely restricting its practical applicability. Herein, we propose a rational strategy...

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Main Authors: Xiaodong Shi, Zhenming Xu, Cheng Han, Runze Shi, Xianwen Wu, Bingan Lu, Jiang Zhou, Shuquan Liang
Format: Article
Language:English
Published: SpringerOpen 2020-11-01
Series:Nano-Micro Letters
Subjects:
Cobalt nanoparticles
Nitrogen-doped graphitized carbon
Co–N bonds
Cycling stability
Potassium-ion batteries
Online Access:http://link.springer.com/article/10.1007/s40820-020-00534-x
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spelling doaj-5e1946ef11ff48e9ab0f20cf451cd5162020-11-25T04:05:27ZengSpringerOpenNano-Micro Letters2311-67062150-55512020-11-0113111210.1007/s40820-020-00534-xHighly Dispersed Cobalt Nanoparticles Embedded in Nitrogen-Doped Graphitized Carbon for Fast and Durable Potassium StorageXiaodong Shi0Zhenming Xu1Cheng Han2Runze Shi3Xianwen Wu4Bingan Lu5Jiang Zhou6Shuquan Liang7School of Materials Science and Engineering, Central South UniversityUniversity of Michigan-Shanghai Jiao Tong University Joint Institute, Shanghai Jiao Tong UniversitySchool of Materials Science and Engineering, Central South UniversitySchool of Materials Science and Engineering, Central South UniversitySchool of Chemistry and Chemical Engineering, Jishou UniversitySchool of Physics and Electronics, State Key Laboratory of Advanced Design and Manufacturing for Vehicle Body, Hunan UniversitySchool of Materials Science and Engineering, Central South UniversitySchool of Materials Science and Engineering, Central South UniversityAbstract Potassium-ion batteries (KIBs) have great potential for applications in large-scale energy storage devices. However, the larger radius of K+ leads to sluggish kinetics and inferior cycling performance, severely restricting its practical applicability. Herein, we propose a rational strategy involving a Prussian blue analogue-derived graphitized carbon anode with fast and durable potassium storage capability, which is constructed by encapsulating cobalt nanoparticles in nitrogen-doped graphitized carbon (Co-NC). Both experimental and theoretical results show that N-doping effectively promotes the uniform dispersion of cobalt nanoparticles in the carbon matrix through Co–N bonds. Moreover, the cobalt nanoparticles and strong Co–N bonds synergistically form a three-dimensional conductive network, increase the number of adsorption sites, and reduce the diffusion energy barrier, thereby facilitating the adsorption and the diffusion kinetics. These multiple effects lead to enhanced reversible capacities of 305 and 208.6 mAh g−1 after 100 and 300 cycles at 0.05 and 0.1 A g−1, respectively, demonstrating the applicability of the Co-NC anode for KIBs.http://link.springer.com/article/10.1007/s40820-020-00534-xCobalt nanoparticlesNitrogen-doped graphitized carbonCo–N bondsCycling stabilityPotassium-ion batteries
collection DOAJ
language English
format Article
sources DOAJ
author Xiaodong Shi
Zhenming Xu
Cheng Han
Runze Shi
Xianwen Wu
Bingan Lu
Jiang Zhou
Shuquan Liang
spellingShingle Xiaodong Shi
Zhenming Xu
Cheng Han
Runze Shi
Xianwen Wu
Bingan Lu
Jiang Zhou
Shuquan Liang
Highly Dispersed Cobalt Nanoparticles Embedded in Nitrogen-Doped Graphitized Carbon for Fast and Durable Potassium Storage
Nano-Micro Letters
Cobalt nanoparticles
Nitrogen-doped graphitized carbon
Co–N bonds
Cycling stability
Potassium-ion batteries
author_facet Xiaodong Shi
Zhenming Xu
Cheng Han
Runze Shi
Xianwen Wu
Bingan Lu
Jiang Zhou
Shuquan Liang
author_sort Xiaodong Shi
title Highly Dispersed Cobalt Nanoparticles Embedded in Nitrogen-Doped Graphitized Carbon for Fast and Durable Potassium Storage
title_short Highly Dispersed Cobalt Nanoparticles Embedded in Nitrogen-Doped Graphitized Carbon for Fast and Durable Potassium Storage
title_full Highly Dispersed Cobalt Nanoparticles Embedded in Nitrogen-Doped Graphitized Carbon for Fast and Durable Potassium Storage
title_fullStr Highly Dispersed Cobalt Nanoparticles Embedded in Nitrogen-Doped Graphitized Carbon for Fast and Durable Potassium Storage
title_full_unstemmed Highly Dispersed Cobalt Nanoparticles Embedded in Nitrogen-Doped Graphitized Carbon for Fast and Durable Potassium Storage
title_sort highly dispersed cobalt nanoparticles embedded in nitrogen-doped graphitized carbon for fast and durable potassium storage
publisher SpringerOpen
series Nano-Micro Letters
issn 2311-6706
2150-5551
publishDate 2020-11-01
description Abstract Potassium-ion batteries (KIBs) have great potential for applications in large-scale energy storage devices. However, the larger radius of K+ leads to sluggish kinetics and inferior cycling performance, severely restricting its practical applicability. Herein, we propose a rational strategy involving a Prussian blue analogue-derived graphitized carbon anode with fast and durable potassium storage capability, which is constructed by encapsulating cobalt nanoparticles in nitrogen-doped graphitized carbon (Co-NC). Both experimental and theoretical results show that N-doping effectively promotes the uniform dispersion of cobalt nanoparticles in the carbon matrix through Co–N bonds. Moreover, the cobalt nanoparticles and strong Co–N bonds synergistically form a three-dimensional conductive network, increase the number of adsorption sites, and reduce the diffusion energy barrier, thereby facilitating the adsorption and the diffusion kinetics. These multiple effects lead to enhanced reversible capacities of 305 and 208.6 mAh g−1 after 100 and 300 cycles at 0.05 and 0.1 A g−1, respectively, demonstrating the applicability of the Co-NC anode for KIBs.
topic Cobalt nanoparticles
Nitrogen-doped graphitized carbon
Co–N bonds
Cycling stability
Potassium-ion batteries
url http://link.springer.com/article/10.1007/s40820-020-00534-x
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