Fabrication of manganese oxide@nitrogen doped graphene oxide/polypyrrole (MnO <ce:inf loc='post'>2</ce:inf>@NGO/PPy) hybrid composite electrodes for energy storage devices

Sivalingam Ramesh; Hemraj M. Yadav; K. Karuppasamy; Dhanasekaran Vikraman; Hyun-Seok Kim; Joo-Hyung Kim; Heung Soo Kim

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Fabrication of manganese oxide@nitrogen doped graphene oxide/polypyrrole (MnO 2@NGO/PPy) hybrid composite electrodes for energy storage devices

机译：储能器件中锰掺杂@氮掺杂氧化石墨烯/聚吡咯（MnO 2 @ NGO / PPy）混合复合电极的制备

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The highly efficient hydrothermal chemical reaction was used to synthesis the manganese oxide@nitrogen doped graphene oxide/polypyrrole (MnO2@NGO/PPy) composites as a high capacitance electrode material for supercapacitors. The prepared composites structural and surface properties were confirmed by spectral and electron microscopic studies, respectively. The electrochemical cyclic voltammetric analysis carried out for MnO2@NGO and MnO2@NGO/PPy electrodes using potassium hydroxide electrolyte. The improved capacitance of 480?F.g?1exhibited for MnO2@NGO/PPy hybrid electrode compared with 360?F.g-1for MnO2@NGO electrode at 0.5 A.?g?1current density. The better cycling and rate retention properties exposed for MnO2@NGO/PPy hybrid electrode. Hence, the observed results suggested that MnO2@NGO/PPy electrodes offer promising uses for the high-performance supercapacitor.

机译：高效的水热化学反应被用于合成锰氧化物@氮掺杂的氧化石墨烯/聚吡咯（MnO2 @ NGO / PPy）复合材料，作为超级电容器的高电容电极材料。制备的复合材料的结构和表面性能分别通过光谱和电子显微镜研究得到证实。使用氢氧化钾电解液对MnO2 @ NGO和MnO2 @ NGO / PPy电极进行了电化学循环伏安分析。 MnO2 @ NGO / PPy混合电极具有480？F.g？1的改进电容，而电流密度为0.5 A.?g?1的MnO2 @ NGO /电极是360？F.g-1。 MnO2 @ NGO / PPy杂化电极具有更好的循环和速率保持性能。因此，观察到的结果表明，MnO2 @ NGO / PPy电极可为高性能超级电容器提供有希望的用途。

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《Journal of Materials Research and Technology》 |2019年第5期|共12页
作者
Sivalingam Ramesh; Hemraj M. Yadav; K. Karuppasamy; Dhanasekaran Vikraman; Hyun-Seok Kim; Joo-Hyung Kim; Heung Soo Kim;
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中图分类工程材料学;
关键词
MnO2N-doped GOpolypyrrolehybrid compositessupercapacitor;

机译：MnO2N掺杂GOpoly吡咯混合型超级电容器;

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2. Cubic nanostructure of Co 3O 4@nitrogen doped graphene oxide/polyindole composite efficient electrodes for high performance energy storage applications [J] . Sivalingam Ramesh, Hemraj Yadav, Chinna Bathula, Journal of Materials Research and Technology . 2020,第5期

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3. Approaching the lithium-manganese oxides' energy storage limit with Li 2MnO 3 nanorods for high-performance supercapacitor [J] . Weina Xu, Zhiqiang Jiang, Qi Yang, Nano Energy . 2018,第期

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4. Ultra-thin <10nm) Dual-oxide (Al2O3/TiO2) Hybrid Device (Memory/Selector) with Extremely Low Ioff <1nA) and Ireset <1nA) for 3D Storage Class Memory [C] . Changhyuck Sung, Jeonghwan Song, Donguk Lee, Symposium on VLSI Technology . 2019

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5. Processing and Characterization of Graphene/Polyimide-Nickel Oxide Hybrid Nanocomposites for Advanced Energy Storage in Supercapacitor Applications [D] . Okafor, Patricia A. 2016

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6. Hierarchical Flowerlike 3D nanostructure of Co3O4@MnO2/N-doped Graphene oxide (NGO) hybrid composite for a high-performance supercapacitor [O] . Sivalingam Ramesh, K. Karuppasamy, Hyun-Seok Kim, -1

机译：Co3O4 @ MnO2 / N掺杂的氧化石墨烯（NGO）杂化复合材料的分层花状3D纳米结构用于高性能超级电容器
7. One-step Synthesis and Electrochemical Properties of Reduced Graphene Oxide/MnO$inf$2$/inf$ Composites [O] . HOU Yuan, ZHANG Bang-Wen, XING Rui-Guang, 2015

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8. Graphene-Composite Carbon Nanofiber-Based Electrodes for Energy Storage Devices. [R] . Matsumoto, H. 2014

机译：用于储能装置的石墨烯 - 复合碳纳米纤维电极。

Fabrication of manganese oxide@nitrogen doped graphene oxide/polypyrrole (MnO 2@NGO/PPy) hybrid composite electrodes for energy storage devices

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