NML文章集锦 | 钠电池负极相关研究
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一、专辑介绍
由于传统储能技术带来的环境污染和能源危机等问题,人们对高能量密度、低成本的环保型电网储能设备需求不断增加,锂资源分布不均且价格昂贵等问题极大地限制了锂离子电池的可持续发展。钠资源丰富,价格安全,且具有合适的氧化还原电对。因此,与锂离子电池工作原理类似且资源丰富的钠离子电池(SIBs)被认为是LIBs的低成本替代品。作为SIBs负极材料,嵌入型材料导电率高,循环寿命长,但可逆容量较低;合金类材料理论容量高,但面临结构应变大,电极粉碎等问题;转换型材料具有比嵌入型材料更高的理论容量,同时它的体积变化低于合金型材料。因此,开发高能量密度、优异的倍率性能、极佳稳定性的SIBs电极材料成为了当前能源材料领域的热点课题,同时优化组成、微观结构及电解液也是SIBs商业化的必经之路。
本虚拟专辑简介:精选14篇2020-2022年发表在Nano-Micro Letters《纳微快报(英文)》上与钠离子电池负极材料相关的文章。分别来自郑州大学李新建和香港城市大学李振声课题组、大连理工大学邱介山课题组与澳大利亚联邦科学与工业研究组织(CSIRO)郝晓娟及Anthony F. Hollenkamp等人、天津大学杨全红和陈巍团队、厦门大学魏湫龙副教授与彭栋梁教授及武汉理工大学麦立强教授、西南大学徐茂文与北科大陈名扬及福建师大陈育明团队、国防科学技术大学余大斌教授与合肥工业大学蒋阳教授团队、中国科学技术大学余彦团队与Max-Plank固体研究所研究人员、大连理工大学蹇锡高院士团队、哈尔滨工程大学曹殿学教授、南京航空航天大学彭生杰与昆士兰大学胡宇翔博士、澳大利亚昆士兰大学Xiu Song Zhao教授、湖南大学张明教授、南洋理工大学Pooi See Lee教授、华东师范大学刘少华教授。
点击“阅读原文”,可下载本专辑pdf全文。也欢迎您咨询和投稿。
二、精选文章
Article
1. Fabricating Na/In/C Composite Anode with Natrophilic Na–In Alloy Enables Superior Na Ion Deposition in the EC/PC Electrolyte (ARTICLE)
Hui Wang, Yan Wu, Ye Wang, Tingting Xu, Dezhi Kong, Yang Jiang, Di Wu, Yongbing Tang, Xinjian Li and Chun-Sing Lee
Nano-Micro Lett. 14, 23 (2022).
https://doi.org/10.1007/s40820-021-00756-7
“亲钠”的钠铟合金相设计:构建在传统碳酸酯类电解液中稳定循环的钠金属负极
2. Electrolyte/Structure-Dependent Cocktail Mediation Enabling High-Rate/Low-Plateau Metal Sulfide Anodes for Sodium Storage (ARTICLE)
Yongchao Tang, Yue Wei, Anthony F. Hollenkamp, Mustafa Musameh, Aaron Seeber, Tao Jin, Xin Pan, Han Zhang, Yanan Hou, Zongbin Zhao, Xiaojuan Hao, Jieshan Qiu and Chunyi Zhi
Nano-Micro Lett. 13, 178 (2021).
https://doi.org/10.1007/s40820-021-00686-4
3. From Micropores to Ultra-micropores inside Hard Carbon: Toward Enhanced Capacity in Room-/Low-Temperature Sodium-Ion Storage (ARTICLE)
Jinlin Yang, Xiaowei Wang, Wenrui Dai, Xu Lian, Xinhang Cui, Weichao Zhang, Kexin Zhang, Ming Lin, Ruqiang Zou, Kian Ping Loh, Quan-Hong Yang and Wei Chen
Nano-Micro Lett. 13, 98 (2021).
https://doi.org/10.1007/s40820-020-00587-y
4. High-Energy and High-Power Pseudocapacitor–Battery Hybrid Sodium-Ion Capacitor with Na+ Intercalation Pseudocapacitance Anode (ARTICLE)
Qiulong Wei, Qidong Li, Yalong Jiang, Yunlong Zhao, Shuangshuang Tan, Jun Dong, Liqiang Mai and Dong-Liang Peng
Nano-Micro Lett. 13, 55 (2021).
https://doi.org/10.1007/s40820-020-00567-2
5. Efficient Catalytic Conversion of Polysulfides by Biomimetic Design of “Branch-Leaf” Electrode for High-Energy Sodium–Sulfur Batterie (ARTICLE)
Wenyan Du, Kangqi Shen, Yuruo Qi, Wei Gao, Mengli Tao, Guangyuan Du, Shu-juan Bao, Mingyang Chen, Yuming Chen and Maowen Xu
Nano-Micro Lett. 13, 50 (2021).
https://doi.org/10.1007/s40820-020-00563-6
西南大学徐茂文:仿生“枝叶”状电极--高效催化室温钠硫电池多硫化物转化
6. Dimensional Gradient Structure of CoSe2@CNTs-MXene Anode Assisted by Ether for High-Capacity, Stable Sodium Storage (ARTICLE)
Enze Xu, Pengcheng Li, Junjie Quan, Hanwen Zhu, Li Wang, Yajing Chang, Zhenjie Sun, Lei Chen, Dabin Yu and Yang Jiang
Nano-Micro Lett. 13, 40 (2021).
https://doi.org/10.1007/s40820-020-00562-7
7. Enhanced Pseudo-Capacitive Contributions to High-Performance Sodium Storage in TiO2/C Nanofibers via Double Effects of Sulfur Modification (ARTICLE)
Yan Zhang, Yuanye Huang, Vesna Srot, Peter A. van Aken, Joachim Maier and Yan Yu
Nano-Micro Lett. 12, 165 (2020).
https://doi.org/10.1007/s40820-020-00506-1
德国Max-Plank固体研究所&中科大余彦:双效硫改性提高TiO₂/C复合纤维储钠中的赝电容贡献
8. A Novel Strategy of In Situ Trimerization of Cyano Groups Between the Ti3C2Tx (MXene) Interlayers for High-Energy and High-Power Sodium-Ion Capacitors (ARTICLE)
Siyang Liu, Fangyuan Hu, Wenlong Shao, Wenshu Zhang, Tianpeng Zhang, Ce Song, Man Yao, Hao Huang and Xigao Jian
Nano-Micro Lett. 12, 135 (2020).
https://doi.org/10.1007/s40820-020-00473-7
9. MXene-Derived Defect-Rich TiO2@rGO as High-Rate Anodes for Full Na Ion Batteries and Capacitors (ARTICLE)
Yongzheng Fang, Yingying Zhang, Chenxu Miao, Kai Zhu, Yong Chen, Fei Du, Jinling Yin, Ke Ye, Kui Cheng, Jun Yan, Guiling Wang and Dianxue Cao
Nano-Micro Lett. 12, 128 (2020).
https://doi.org/10.1007/s40820-020-00471-9
曹殿学团队 | 钠离子电池-电容混合器件:自支撑缺陷丰富的MXene衍生TiO2@rGO泡沫电极
10. Facile Synthesis of FePS3 Nanosheets@MXene Composite as a High-Performance Anode Material for Sodium Storage (ARTICLE)
Yonghao Ding, Yu Chen, Na Xu, Xintong Lian, Linlin Li, Yuxiang Hu and Shengjie Peng
Nano-Micro Lett. 12, 54 (2020).
https://doi.org/10.1007/s40820-020-0381-y
11. Stabilising Cobalt Sulphide Nanocapsules with Nitrogen-Doped Carbon for High-Performance Sodium-Ion Storage (ARTICLE)
Yilan Wu, Rohit R. Gaddam, Chao Zhang, Hao Lu, Chao Wang, Dmitri Golberg and Xiu Song Zhao
Nano-Micro Lett. 12, 48 (2020).
https://doi.org/10.1007/s40820-020-0391-9
12. Three-Dimensional Self-assembled Hairball-Like VS4 as High-Capacity Anodes for Sodium-Ion Batteries (ARTICLE)
Shuangshuang Ding, Bingxin Zhou, Changmiao Chen, Zhao Huang, Pengchao Li, Shuangyin Wang, Guozhong Cao and Ming Zhang
Nano-Micro Lett. 12, 39 (2020).
https://doi.org/10.1007/s40820-020-0377-7
13. Encapsulation of MnS Nanocrystals into N, S‑Co‑doped Carbon as Anode Material for Full Cell Sodium‑Ion Capacitors (ARTICLE)
Shaohui Li, Jingwei Chen, Jiaqing Xiong, Xuefei Gong, Jinghao Ciou and Pooi See Lee
Nano-Micro Lett. 12, 34 (2020).
https://doi.org/10.1007/s40820-020-0367-9
14. Hollow Bio-derived Polymer Nanospheres with Ordered Mesopores for Sodium-Ion Battery (ARTICLE)
Yan Ai, Yuxiu You, Facai Wei, Xiaolin Jiang, Zhuolei Han, Jing Cui, Hao Luo, Yucen Li, Zhixin Xu, Shunqi Xu, Jun Yang, Qinye Bao, Chengbin Jing, Jianwei Fu, Jiangong Cheng and Shaohua Liu
Nano-Micro Lett. 12, 31 (2020).
https://doi.org/10.1007/s40820-020-0370-1
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