收藏本站
收藏 | 投稿 | 手機打開
二維碼
手機客戶端打開本文

The optimized interface engineering of VS_2 as cathodes for high performance all-solid-state lithium-ion battery

WANG JianBiao  OKABE Jugo  KOMINE Yuki  NOTOHARA Hiroo  URITA Koki  MORIGUCHI Isamu  WEI MingDeng  
【摘要】:Vanadium sulfide was first employed as a cathode for all-solid-state lithium-ion batteries and demonstrated superior compatibility with the solid electrolyte, in which the interface between the electrode and solid electrolyte has been optimized. Consequently, it can exhibit excellent electrochemical performance in the voltage range of 1.5–3.5 V. Moreover, the ex-situ X-ray photoelectron spectroscopy measurements reveal the incomplete conversion mechanism to account for the superior electrochemical performance. Specifically, the electrode of VS_2exhibits a large capacity of 268.1 mA h g~(-1)at 50 m A g~(-1)(rate performance). At a current density of 100 mA g~(-1), a large reversible capacity of 215 m A h g~(-1)can be maintained after 100 cycles,indicating extraordinary cycling stability, making it a promising electrode for high energy density all-solid-state lithium-ion batteries.

知網文化
【相似文獻】
中國期刊全文數據庫 前17條
1 Shi Kui Jia;Bin Ze Yang;Chao Feng Zhao;Zhi Yong Zhang;Yan Hong Yin;Xian Bin Liu;Ying Yan Hu;Zi Ping Wu;;Tab engineering-mediated resistance of flexible lithium-ion batteries for high output current[J];Journal of Energy Chemistry;2021年07期
2 Gyuwon Seo;Jaeyun Ha;Moonsu Kim;Jihyeon Park;Jaewon Lee;Eunoak Park;Sungyool Bong;Kiyoung Lee;Soon Jong Kwon;Seung-pil Moon;Jinsub Choi;Jaeyoung Lee;;Rapid determination of lithium-ion battery degradation: High C-rate LAM and calculated limiting LLI[J];Journal of Energy Chemistry;2022年04期
3 Xueli Guo;Liang Xiao;Pengfei Yan;Ming Li;Mingjun Zhu;Jinping Liu;;Synergistic tuning of electrochemical surface area and surface Co~(3+) by oxygen plasma enhances the capacities of Co_3O_4 lithium–oxygen battery cathodes[J];Chinese Chemical Letters;2021年11期
4 Liang Xiao;Zhong Qin;Jingyu Yi;Haoyang Dong;Jinping Liu;;A novel bifunctional oxygen electrode architecture enabled by heterostructures self-scaffolding for lithium–oxygen batteries[J];Journal of Energy Chemistry;2020年12期
5 Huai Jiang;Hailin Fan;Zexun Han;Bo Hong;Feixiang Wu;Kai Zhang;Zhian Zhang;Jing Fang;Yanqing Lai;;A 3D conducting scaffold with in-situ grown lithiophilic Ni_2P nanoarrays for high stability lithium metal anodes[J];Journal of Energy Chemistry;2021年03期
6 Chenyang Zha;Donghai Wu;Yuwei Zhao;Jun Deng;Jinghua Wu;Rong Wu;Meng Yang;Lin Wang;Houyang Chen;;Two-dimensional multimetallic sulfide nanosheets with multi-active sites to enhance polysulfide redox reactions in liquid Li_2S_6-based lithium-polysulfide batteries[J];Journal of Energy Chemistry;2021年01期
7 Yaya Wang;Zexu Zhao;Wei Zeng;Xingbo Liu;Lei Wang;Jian Zhu;Bingan Lu;;Hierarchically porous Cu current collector with lithiophilic Cu_xO interphase towards high-performance lithium metal batteries[J];Journal of Energy Chemistry;2021年07期
8 Guolang Zhou;Linlin Chen;Yanhong Chao;Xiaowei Li;Guiling Luo;Wenshuai Zhu;;Progress in electrochemical lithium ion pumping for lithium recovery[J];Journal of Energy Chemistry;2021年08期
9 Yang Luo;Tianyu Li;Hongzhang Zhang;Ying Yu;Arshad Hussain;Jingwang Yan;Huamin Zhang;Xianfeng Li;;New insights into the formation of silicon–oxygen layer on lithium metal anode via in situ reaction with tetraethoxysilane[J];Journal of Energy Chemistry;2021年05期
10 Xin Guo;Bing Sun;Dawei Su;Xiaoxue Liu;Hao Liu;Yong WangDepartment of Chemical Engineering,School of Environmental and Chemical Engineering,Shanghai University;Guoxiu Wang;;Recent developments of aprotic lithium-oxygen batteries:functional materials determine the electrochemical performance[J];Science Bulletin;2017年06期
11 Jing Chen;Lei Wen;Ruopian Fang;Da-Wei Wang;Hui-Ming Cheng;Feng Li;;Stress release in high-capacity flexible lithium-ion batteries through nested wrinkle texturing of graphene[J];Journal of Energy Chemistry;2021年10期
12 GuiLu Long;;An erbium-doped lithium niobate micro-cavity laser[J];Science China(Physics,Mechanics & Astronomy);2021年03期
13 ;Formation Energies of the Lithium Intercalations in MoS_2[J];Journal of Materials Science & Technology;2006年01期
14 ;Lithium Carbonate Project and Boric Acid Project Start Construction[J];China Chemical Reporter;2005年34期
15 竇雅穎;謝召軍;魏英進;彭章泉;周震;;Redox mediators for high-performance lithium-oxygen batteries[J];National Science Review;2022年04期
16 Shifang Jiang;Shuo Huang;Minjie Yao;Jiacai Zhu;Lili Liu;Zhiqiang Niu;;Bimetal-organic frameworks derived Co/N-doped carbons for lithium-sulfur batteries[J];Chinese Chemical Letters;2020年09期
17 Rui Xu;Yingzhi Sun;Yunfei Wang;Jiaqi Huang;Qiang Zhang;;Two-dimensional vermiculite separator for lithium sulfur batteries[J];Chinese Chemical Letters;2017年12期
中國重要會議論文全文數據庫 前20條
1 Ling Li;Ji-Yong Zou;Sheng-Yong You;;A Porous Carbon Material for Lithium Anode Material Using A Eu(Ⅲ) Metal-Organic Fromework As A Reactive Precursor[A];中國化學會第十屆全國無機化學學術會議論文集(第一卷)[C];2019年
2 Sen Sun;Wanjing Cui;Yan Li;Xiaoping Yu;Tianlong Deng;;Selective Recovery of Lithium from Geothermal Water by Electrochemical Method[A];中國化學會第七屆全國熱分析動力學與熱動力學學術會議會議摘要集[C];2019年
3 Long Li;Sisi Zhang;Yafei Guo;Tianlong Deng;;Studies on the Thermodynamic Properties of Electrolyte Solutions Containing Lithium Borates[A];中國化學會第七屆全國熱分析動力學與熱動力學學術會議會議摘要集[C];2019年
4 Hongyu Lin;Xiaoping Yu;Mingli Li;Ji Duo;Yafei Guo;Tianlong Deng;;Synthesis of porous lithium ion sieve and its application for lithium recovery from geothermal water[A];中國化學會第七屆全國熱分析動力學與熱動力學學術會議會議摘要集[C];2019年
5 Dexing Zhao;Lingling Xie;Limin Zhu;Xiaoyu Cao;;Synthesis of high-rate Li_4Ti_5O_(12) as anode materials for lithium ion batteries[A];河南省化學會2020年學術年會論文摘要集[C];2020年
6 Guangchao Li;Zhewei Yang;Huajun Guo;Xinhai Li;Guochun Yan;Zhixing Wang;Jiexi Wang;;Building High-Performance Full-Carbon Lithium-Ion Capacitors[A];中國化學會第三屆中國能源材料化學研討會摘要集[C];2018年
7 Liang Zhou;Zhenhui Liu;Qiang Yu;Ruohan Yu;Chunjuan Tang;Liqiang Mai;;Silicon Oxides:A Promising Family of High-Capacity Anode Materials[A];中國化學會第三屆中國能源材料化學研討會摘要集[C];2018年
8 Yanzhu Luo;Chengnan Liang;Hao Chen;;Surface tuning for Fe_2VO_4 porous hierarchical microparticle as advanced anode electrode with enhanced initial coulombic efficiency and lithium storage property[A];中國化學會第三屆中國能源材料化學研討會摘要集[C];2018年
9 Peter S.Fedkiw;;Electrolytes Based on Fumed Oxides for Rechargeable Lithium Batteries[A];第十三次全國電化學會議論文摘要集(上集)[C];2005年
10 張強;;Advanced lithium-sulfur batteries: The critical role of carbon[A];2015年中國化工學會年會論文集[C];2015年
11 王偉東;;Safety of Lithium Ion Batteries[A];第十三次全國電化學會議論文摘要集(上集)[C];2005年
12 王焱;;First-principles study of surface properties of LiFePO_4[A];第十一屆全國計算(機)化學學術會議論文摘要集[C];2011年
13 ;Synthesis and properties of LiInS_2 polycrystalline materials[A];第14屆全國晶體生長與材料學術會議論文集[C];2006年
14 Kedi Cai;Yao xiao;Rui yang;Xiaoshi Lang;Tieshi He;;Investigation of porous negative electrode for lithium-oxygen battery[A];中國化學會第30屆學術年會摘要集-第三十分會:化學電源[C];2016年
15 范玉凱;王建明;葉學波;竺彬;張鑒清;;表面處理對LiMn_2O_4電化學性能的影響(英文)[A];第十三次全國電化學會議論文摘要集(上集)[C];2005年
16 ;Effect of various carbon materials on the reversible hydrogen storage of lithium borohydride[A];2008 International Hydrogen Forum Programme and Abstract[C];2008年
17 Yafei Guo;Kaiyu Zhao;Long Li;Lingzong Meng;Shiqiang Wang;Tianlong Deng;;Volumetric properties of aqueous solution of lithium tetraboratefrom 283.15 to 363.15 K at 101.25 KPa[A];中國化學會第六屆全國熱分析動力學與熱動力學學術會議論文集[C];2017年
18 WANG Lianbang;ZHANG Pinjie;SU Liwei;MA Chun'an;;SiO_x-PANI-Ag composites with homogeneously-embedded Si nanocrystals and nanopores as high-performance anodes for lithium ion batteries[A];第一屆全國儲能科學與技術大會摘要集[C];2014年
19 王洪;祝綸宇;陳鳴才;;使用Mg-PAA表面改性LiCoO_2(英文)[A];第十三次全國電化學會議論文摘要集(上集)[C];2005年
20 WU Xianbin;SU Liwei;WANG Lianbang;;Mesoporous Mn_3O_4 nanoparticles/graphene nanocomposites as high-performance anode materials for lithium-ion batteries[A];第一屆全國儲能科學與技術大會摘要集[C];2014年
中國博士學位論文全文數據庫 前3條
1 鐘曉斌;鋰離子電池負極材料ZnM_2O_4(M=Co,Fe,Mn)的制備及改性研究[D];吉林大學;2016年
2 陳楠;新型鉬基負極材料的電化學性質與儲能機制的研究[D];吉林大學;2017年
3 楊映暉;鋰電池電極材料的微觀結構調控和電化學性能優化[D];山東大學;2021年
中國碩士學位論文全文數據庫 前5條
1 Godfrey Boyi Elisama Lipo;[D];湖南大學;2021年
2 官博;二氧化錫及其復合納米材料的制備及電化學性能研究[D];東北師范大學;2015年
3 羅楠;磷酸鐵鋰正極材料的燒結及其性能[D];西南交通大學;2021年
4 Rajbhandari Bijina;[D];南京理工大學;2020年
5 Majid Shaker;紫菜生物質多孔炭的制備及電化學儲能性能的研究[D];北京化工大學;2020年
 快捷付款方式  訂購知網充值卡  訂購熱線  幫助中心
  • 400-819-9993
  • 010-62982499
  • 010-62783978


在线精品视频一区二区三四 <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <蜘蛛词>| <文本链> <文本链> <文本链> <文本链> <文本链> <文本链>