Zn-Al layered double hydroxide growing on the substrate of graphene and polypyrrole composite as anode material for Zn-Ni secondary battery

Jiang Yinan; Yang Zhanhong; Liu Lili; Meng Jinlei; Cui Fan

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Zn-Al layered double hydroxide growing on the substrate of graphene and polypyrrole composite as anode material for Zn-Ni secondary battery

机译：Zn-Al层状双氢氧化物生长在石墨烯和聚吡咯复合材料的基底上，作为Zn-Ni二次电池的负极材料

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In this work, the zinc-aluminum layered double hydroxide grown on the substrate of graphene and polypyrrole composite (Zn-Al LDHs/GP) was prepared by in-situ growth method, and evaluated as anode materials of Zn-Ni secondary batteries. The results indicate that the Zn-Al LDHs/GP electrode has the smallest peak potential difference (0.452 V), the lowest charge transfer resistance and the superior cycling performance. Compared to the normal Zn-Al LDHs, charge transfer resistance of Zn-Al LDHs/GP electrode is reduced by 6.65 Omega. Moreover, the specific capacity of the Zn-Al LDHs/GP electrode is still remained at 350.0 mAh g(-1) after 1000 cycles, with a retention rate of 91.5% and it exhibits better rate capability. (C) 2019 Elsevier B.V. All rights reserved.

机译：在这项工作中，通过原位生长方法制备了生长在石墨烯和聚吡咯复合材料（Zn-Al LDHs / GP）上的锌铝层状双氢氧化物，并将其作为Zn-Ni二次电池的负极材料进行了评估。结果表明，Zn-Al LDHs / GP电极具有最小的峰电位差（0.452 V），最低的电荷转移电阻和优异的循环性能。与普通的Zn-Al LDHs相比，Zn-Al LDHs / GP电极的电荷转移电阻降低了6.65Ω。此外，经过1000次循环后，Zn-Al LDHs / GP电极的比容量仍保持在350.0 mAh g（-1），保留率为91.5％，并且具有更好的倍率能力。（C）2019 Elsevier B.V.保留所有权利。

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来源
《Materials Letters》 |2019年第15期|126558.1-126558.4|共4页
作者
Jiang Yinan; Yang Zhanhong; Liu Lili; Meng Jinlei; Cui Fan;
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作者单位

Cent S Univ Coll Chem & Chem Engn Hunan Prov Key Lab Chem Power Source Changsha 410083 Hunan Peoples R China|Cent S Univ Innovat Base Energy & Chem Mat Grad Students Trai Changsha 410083 Hunan Peoples R China;

Cent S Univ Coll Chem & Chem Engn Hunan Prov Key Lab Chem Power Source Changsha 410083 Hunan 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
Composite materials; Energy storage and conversion; Zinc-Nickel secondary battery; Zinc-Aluminum layered double hydroxide; Electrochemical performance;

机译：复合材料;储能和转换;锌镍二次电池;锌铝层状双氢氧化物;电化学性能;

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专利

1. The in-situ growth of Zinc-Aluminum Layered Double Hydroxides on graphene and its application as anode active materials for Zn-Ni secondary battery [J] . Yang Huan, Yang Zhanhong, Wen Xing, Electrochimica Acta . 2017,第期

机译：石墨烯锌 - 铝层双氢氧化物的原位生长及其作为Zn-Ni二次电池的阳极活性材料的应用
2. Intercalation of sulfate anions into a Zn-Al layered double hydroxide: their synthesis and application in Zn-Ni secondary batteries [J] . Liu Yanzhen, Yang Zhanhong RSC Advances . 2016,第73期

机译：将硫酸根阴离子嵌入到Zn-Al分层双氢氧化物中：它们在Zn-Ni二次电池中的合成和应用
3. Fabrication of graphene-encapsulated CoO/CoFe_2O_4 composites derived from layered double hydroxides and their application as anode materials for lithium-ion batteries [J] . Dejian Du, Wenbo Yue, Yu Ren, Journal of Materials Science . 2014,第23期

机译：层状双氢氧化物包裹石墨烯的CoO / CoFe_2O_4复合材料的制备及其在锂离子电池负极材料中的应用
4. A Study of Crystallization Kinetics of Poly (3-hydroxybutyrate-co-3-hydroxyvalerate)/Zn-Al Layered Double Hydroxide (LDH) Stearate Nanocomposites [C] . Koffi L. Dagnon, Clark Robinson, Hua H. Chen, Annual technical conference of the Society of Plastics Engineers;Technical conference of the Society of Plastics Engineers;ANTEC 2009 . 2011

机译：聚（3-羟基丁酸酯-co-3-羟基戊酸酯）/ Zn-Al层状双氢氧化物（LDH）硬脂酸酯纳米复合材料的结晶动力学研究
5. Layered double hydroxides as electrode materials for Ni based batteries and as novel inorganic/organic hybrid materials. [D] . Caravaggio, Gianni. 2002

机译：层状双氢氧化物可作为镍基电池的电极材料以及新型的无机/有机杂化材料。
6. One-step synthesis of Nickle Iron-layered double hydroxide/reduced graphene oxide/carbon nanofibres composite as electrode materials for asymmetric supercapacitor [O] . Feifei Wang, Ting Wang, Shiguo Sun, -1

机译：一步法合成镍铁层双氢氧化物/还原氧化石墨烯/碳纳米纤维复合材料作为不对称超级电容器的电极材料
7. Synthesis of Fluorinated Graphene/CoAl-Layered Double Hydroxide Composites as Electrode Materials for Supercapacitors [O] . -1

机译：合成氟化石墨/煤层双氢氧化物复合材料作为超级电容器的电极材料

Zn-Al layered double hydroxide growing on the substrate of graphene and polypyrrole composite as anode material for Zn-Ni secondary battery

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