One Step Preparation of Fe–FeO–Graphene Nanocomposite through Pulsed Wire Discharge

Xin Gao; Naoaki Yokota; Hayato Oda; Shigeru Tanaka; Kazuyuki Hokamoto; Pengwan Chen

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One Step Preparation of Fe–FeO–Graphene Nanocomposite through Pulsed Wire Discharge

机译：脉冲丝放电一步法制备Fe-FeO-石墨烯纳米复合材料

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The Fe–FeO–graphene nanocomposite material was produced successfully by pulsed wire discharge in graphene oxide (GO) suspension. Pure iron wires with a diameter of 0.25 mm and a length of 100 mm were used in the experiments. The discharge current and voltage were recorded to analyze the process of the pulsed wire discharge. The as-prepared samples—under different charging voltages—were recovered and characterized by X-ray diffraction (XRD), scanning electron microscopy (SEM), Raman spectroscopy, and transmission electron microscopy (TEM). Curved and loose graphene films that were anchored with spherical Fe and FeO nanoparticles were obtained at the charging voltage of 8–10 kV. The present study discusses the mechanism by which the Fe–FeO–graphene nanocomposite material was formed during the pulsed wire discharge process.

机译：Fe–FeO–石墨烯纳米复合材料是通过在氧化石墨烯（GO）悬浮液中进行脉冲丝放电而成功生产的。在实验中使用直径为0.25 mm，长度为100 mm的纯铁丝。记录放电电流和电压，以分析脉冲线放电的过程。在不同的充电电压下，回收所制备的样品，并通过X射线衍射（XRD），扫描电子显微镜（SEM），拉曼光谱和透射电子显微镜（TEM）对其进行表征。在8-10 kV的充电电压下，获得了固定有球形Fe和FeO纳米颗粒的弯曲和疏松的石墨烯薄膜。本研究讨论了在脉冲丝放电过程中形成Fe–FeO–石墨烯纳米复合材料的机理。

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《Crystals》 |2018年第2期|共10页
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Xin Gao; Naoaki Yokota; Hayato Oda; Shigeru Tanaka; Kazuyuki Hokamoto; Pengwan Chen;
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中图分类生物物理学;
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nanocompositepusled wire dischargegraphene;

机译：纳米复合喷丝石墨烯;

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1. One Step Preparation of Fe–FeO–Graphene Nanocomposite through Pulsed Wire Discharge [J] . Xin Gao, Naoaki Yokota, Hayato Oda, Crystals . 2018,第2期

机译：脉冲丝放电一步法制备Fe-FeO-石墨烯纳米复合材料
2. Synthesis of BN nanosheetanotube-Fe nanocomposites by pulsed wire discharge and high-temperature annealing [J] . L.F. He, J. Shirahata, H. Suematsu, Materials Letters . 2014,第feba15期

机译：脉冲丝放电和高温退火合成BN纳米片/纳米管-Fe纳米复合材料
3. Multi-catalysis induced by pulsed discharge plasma coupled with graphene-Fe_3O_4 nanocomposites for efficient removal of ofloxacin in water: Mechanism, degradation pathway and potential toxicity [J] . Guo He, Li Zhen, Lin Siying, Chemosphere . 2021,第Feba期

机译：由脉冲放电等离子体诱导的多催化与石墨烯-FE_3O_4纳米复合材料，以有效地除去水中氧氟沙星：机制，降解途径和潜在毒性
4. One-Step-Method to Synthesize Fe/FeO/Graphene Nanocomposite by Pulsed Wire Discharge [C] . Xin GAO, Naoaki YOKOTA, Hayato ODA, 部門?支部合同講演会,九州支部第5回学術講演会?総会,第31回信頼性シンポジウム講演論文集 . 2018

机译：脉冲丝放电一步法合成Fe / FeO /石墨烯纳米复合材料
5. Control of the Turbulent Shear Layer Downstream of a Backward Facing Step using Nanosecond Pulse Driven Surface Plasma Discharges: Effects of Pulse Energy. [D] . Akins, David J. 2016

机译：使用纳秒级脉冲驱动的表面等离子放电控制向后面向步骤下游的湍流剪切层：脉冲能量的影响。
6. Graphene Formation through Pulsed Wire Discharge of Graphite Strips in Water: Exfoliation Mechanism [O] . Shigeru Tanaka, Daisuke Inao, Kouki Hasegawa, 2021

机译：石墨烯形成通过水石墨条的脉冲线排放：剥离机理
7. Magnetic Phase Formation in Self-Assembled Epitaxial BiFeO[subscript 3]–MgO and BiFeO[subscript 3]–MgAl[subscript 2]O[subscript 4] Nanocomposite Films Grown by Combinatorial Pulsed Laser Deposition [O] . Kim, Dong Hun, Kim, Tae Cheol, Eun, Yun Jae, 2015

机译：组合脉冲激光沉积自组装外延BiFeO [下标3] -mgO和BiFeO [下标3] -mgal [下标2] O [下标4]纳米复合薄膜的磁相形成

One Step Preparation of Fe–FeO–Graphene Nanocomposite through Pulsed Wire Discharge

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