Lithium and potassium storage behavior comparison for porous nanoflaked Co_3O_4 anode in lithium-ion and potassium-ion batteries

Wen Jianwu; Xu Lei; Wang Junxia; Xiong Ying; Ma Jianjun; Jiang Cairong; Cao Linhong; Li Jing; Zeng Min

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Lithium and potassium storage behavior comparison for porous nanoflaked Co_3O_4 anode in lithium-ion and potassium-ion batteries

机译：锂离子和钾离子电池多孔纳米萃料CO_3O_4阳极的锂和钾储存行为比较

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Rising cost has generated extended interest from lithium-ion (LIBs) to potassium-ion batteries (PIBs). Here, attempts are concentrated on comparative study on electrochemical Li and K storage behavior features for porous nanoflaked (PNF) CO3O4 anode in LIBs and PIBs. PNF-CO3O4 is synthesized by a facile solution-combustion route and its growth-mechanism is proposed as "bubble-gum fracturing effect". Such PNF-CO3O4 presents both encouraging Li and K storage reactivity. But considering larger-sized K+, it presents a slightly lower reversible capacity (417 mAh g(-1)) and obviously higher charge-transfer-resistance (516.8 Omega) in PIBs than LIBs (743.9 mAh g(-1), 46.0 Omega), implying moderate K+ electrode-kinetics. However, this capacity in PIBs is better than most explored carbon/alloy-based PIBs-anodes. Additionally, first, the substantially lower (nearly 1 V difference) discharge-plateau in PIBs than LIBs indicates a higher operating-voltage full-cell for PIBs than LIBs; Second, this discharge-plateau (0.3 V vs. K+/K) in PIBs slightly higher than potassium-plating-potential could potentially alleviate partial dendrite-formation. Also, enhanced performance for PNF-CO3O4 compared with bulk-CO3O4 confirms marked benefits of PNF-structure in both LIBs and PIBs on shortening Li+/K+ diffusion-distance and enduring volume-swelling. These findings demonstrate extended advantages from LIBs to PIBs for nanostructured CO3O4 and offer a better understanding of its Li and K storage behavior.

机译：成本上升的成本从锂离子（Libs）扩展到钾离子电池（PIB）。在这里，集中尝试对比较研究的对比较研究，对比较研究Libs和Pibs中的多孔纳米纤维（PNF）CO3O4阳极的多孔纳米纤维（PNF）CO3O4阳极。 PNF-CO3O4通过容易溶液燃烧途径合成，并且其生长机理被提出为“泡泡胶压裂效应”。这种PNF-CO3O4令人鼓舞的LI和K储存反应性。但考虑较大的k +，它呈略低较低的可逆容量（417mAhg（-1）），PIB的电荷 - 转移抗性（516.8Ω）比libs（743.9 mah g（-1），46.0ω ），暗示中等的K +电极 - 动力学。然而，这种PIB的这种能力优于大多数探索的碳/合金的PIB阳极。另外，首先，PIBS的基本上更低（近1V差异）排出高原表示PIB的高效 - 电压全电池比Libs;其次，PIB在PIB中的这种排出平台（0.3V vs.K + / k）略高于钾镀电势可能会潜在缓解部分树突式形成。此外，与Bulk-Co3O4相比，PNF-Co3O4的增强性能证实了在缩短Li + / K +扩散距离和持久的体积溶胀的Libs和Pib中PNF结构的显着益处。这些调查结果表明了LIBS对纳米结构CO3O4的PIB的延伸优势，并更好地了解其LI和K存储行为。

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来源
《Journal of power sources》 |2020年第31期|228491.1-228491.9|共9页
作者
Wen Jianwu; Xu Lei; Wang Junxia; Xiong Ying; Ma Jianjun; Jiang Cairong; Cao Linhong; Li Jing; Zeng Min;
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作者单位

Southwest Univ Sci & Technol Sch Mat Sci & Engn State Key Lab Environm Friendly Energy Mat Mianyang 621010 Sichuan Peoples R China;

Southwest Univ Sci & Technol Sch Mat Sci & Engn State Key Lab Environm Friendly Energy Mat Mianyang 621010 Sichuan Peoples R China;

Southwest Univ Sci & Technol Sch Mat Sci & Engn State Key Lab Environm Friendly Energy Mat Mianyang 621010 Sichuan Peoples R China;

Southwest Univ Sci & Technol Sch Mat Sci & Engn State Key Lab Environm Friendly Energy Mat Mianyang 621010 Sichuan Peoples R China;

Mat Corros & Protect Key Lab Sichuan Prov Zigong 643000 Sichuan Peoples R China;

Mat Corros & Protect Key Lab Sichuan Prov Zigong 643000 Sichuan Peoples R China;

Southwest Univ Sci & Technol Sch Mat Sci & Engn State Key Lab Environm Friendly Energy Mat Mianyang 621010 Sichuan Peoples R China;

Southwest Univ Sci & Technol Sch Mat Sci & Engn State Key Lab Environm Friendly Energy Mat Mianyang 621010 Sichuan Peoples R China;

Southwest Univ Sci & Technol Sch Mat Sci & Engn State Key Lab Environm Friendly Energy Mat Mianyang 621010 Sichuan Peoples R China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类
关键词
Lithium-ion battery; Potassium-ion battery; Co3O4; Nanostructure; Anode; Combustion;

机译：锂离子电池;钾离子电池;CO3O4;纳米结构;阳极;燃烧;

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1. Sb nanoparticles encapsulated in 3D porous carbon as anode material for lithium-ion and potassium-ion batteries [J] . Wang Hong, Wu Xuan, Qi Xiujun, Materials Research Bulletin . 2018,第JULa期

机译：包裹在3D多孔碳中的Sb纳米颗粒作为锂离子和钾离子电池的负极材料
2. Potassium vanadate K_(0.23)V_2O_5 as anode materials for lithium-ion and potassium-ion batteries [J] . Liu Cailing, Luo Shaohua, Huang Hongbo, Journal of power sources . 2018,第JUNa15期

机译：钒酸钾K_（0.23）V_2O_5作为锂离子和钾离子电池的负极材料
3. Li and Na storage behavior of bowl-like hollow Co_3O_4 microspheres as an anode material for lithium-ion and sodium-ion batteries [J] . Jian-Wu Wen, Da-Wei Zhang, Yong Zang, Electrochimica Acta . 2014,第Null期

机译：碗状空心Co_3O_4微球作为锂离子和钠离子电池的负极材料的Li和Na储存行为
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机译：CO_3O_4 /碳复合纳米纤维用作先进的锂离子电池中的阳极材料
5. Electrochemical studies of lithium-ion battery anode materials in lithium-ion battery electrolytes. [D] . Zhao, Mingchuan. 2001

机译：锂离子电池电解质中锂离子电池负极材料的电化学研究。
6. Facile Preparation of Porous Rod-like CuxCo3–xO4/C Compositesvia Bimetal–Organic Framework Derivation asSuperior Anodes for Lithium-Ion Batteries [O] . Li Hou, Xinyu Jiang, Yang Jiang, 2019

机译：多孔棒状CuxCo3-xO4 / C复合材料的制备通过双金属有机框架推导为锂离子电池超级阳极
7. Ultra-light and flexible pencil-trace anode for high performance potassium-ion and lithium-ion batteries [O] . Zhixin Tai, Yajie Liu, Qing Zhang, 2017

机译：超轻且灵活的铅笔痕迹阳极，用于高性能钾离子和锂离子电池

Lithium and potassium storage behavior comparison for porous nanoflaked Co_3O_4 anode in lithium-ion and potassium-ion batteries

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