由氮掺杂碳纤维连接的镍空心球用于增强钠硫电池的电化学动力学

Nickel Hollow Spheres Concatenated by Nitrogen-Doped Carbon Fibers for Enhancing Electrochemical Kinetics of Sodium-Sulfur Batteries.

作者信息

Guo Bingshu, Du Wenyan, Yang Tingting, Deng Jianhua, Liu Dingyu, Qi Yuruo, Jiang Jian, Bao Shu-Juan, Xu Maowen

机构信息

Key Laboratory of Luminescent and Real-Time Analytical Chemistry (Southwest University) Ministry of Education School of Materials and Energy Southwest University Chongqing 400715 P. R. China.

出版信息

Adv Sci (Weinh). 2019 Dec 23;7(4):1902617. doi: 10.1002/advs.201902617. eCollection 2020 Feb.

DOI:10.1002/advs.201902617

PMID:32099760

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7029643/

Abstract

The high energy density of room temperature (RT) sodium-sulfur batteries (Na-S) usually rely on the efficient conversion of polysulfide to sodium sulfide during discharging and sulfur recovery during charging, which is the rate-determining step in the electrochemical reaction process of Na-S batteries. In this work, a 3D network (Ni-NCFs) host composed by nitrogen-doped carbon fibers (NCFs) and Ni hollow spheres is synthesized by electrospinning. In this novel design, each Ni hollow unit not only can buffer the volume fluctuation of S during cycling, but also can improve the conductivity of the cathode along the carbon fibers. Meanwhile, the result reveals that a small amount of Ni is polarized during the sulfur-loading process forming a polar Ni-S bond. Furthermore, combining with the nitrogen-doped carbon fibers, the Ni-NCFs composite can effectively adsorb soluble polysulfide intermediate, which further facilitates the catalysis of the Ni unit for the redox of sodium polysulfide. In addition, the in situ Raman is employed to supervise the variation of polysulfide during the charging and discharging process. As expected, the freestanding S@Ni-NCFs cathode exhibits outstanding rate capability and excellent cycle performance.

摘要

室温钠硫电池（Na-S）的高能量密度通常依赖于放电过程中多硫化物向硫化钠的高效转化以及充电过程中的硫回收，这是Na-S电池电化学反应过程中的速率决定步骤。在这项工作中，通过静电纺丝合成了一种由氮掺杂碳纤维（NCFs）和镍空心球组成的三维网络（Ni-NCFs）主体。在这种新颖的设计中，每个镍空心单元不仅可以缓冲循环过程中硫的体积波动，还可以提高沿碳纤维的阴极导电性。同时，结果表明在硫负载过程中有少量镍发生极化，形成极性Ni-S键。此外，结合氮掺杂碳纤维，Ni-NCFs复合材料可以有效吸附可溶性多硫化物中间体，这进一步促进了镍单元对多硫化钠氧化还原的催化作用。此外，采用原位拉曼光谱监测充放电过程中多硫化物的变化。正如预期的那样，独立的S@Ni-NCFs阴极表现出出色的倍率性能和优异的循环性能。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2497/7029643/2f8318be49ed/ADVS-7-1902617-g001.jpg

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由氮掺杂碳纤维连接的镍空心球用于增强钠硫电池的电化学动力学

Nickel Hollow Spheres Concatenated by Nitrogen-Doped Carbon Fibers for Enhancing Electrochemical Kinetics of Sodium-Sulfur Batteries.

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