Crystallite Size Control and Resulting Electrochemistry of Magnetite, Fe_3O_4

Shali Zhu; Amy C. Marschilok; Esther S. Takeuchi; Kenneth J. Takeuchi

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Crystallite Size Control and Resulting Electrochemistry of Magnetite, Fe_3O_4

机译：Fe_3O_4磁铁矿的微晶尺寸控制及所得电化学

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As an environmentally benign, superparamagnetic material, magnetite (Fe_3O_4) has been a topic of interest for applications ranging from drug delivery to data storage. We report here investigation of magnetite as a lithium-battery material. While Fe_3O_4 synthesis has been widely studied, our approach afforded excellent crystallite size control without constraining media or elaborate equipment. Upon electrochemical testing, a strong correlation between performance and crystallite size was observed, resulting in a __30% capacity increase. To the best of our knowledge, this is the first study of electrochemical effects of Fe_3O_4 crystallite size where all nanocrystalline samples were prepared using the same method.

机译：作为一种对环境无害的超顺磁性材料，磁铁矿（Fe_3O_4）已成为从药物输送到数据存储的应用领域中令人关注的话题。我们在这里报告磁铁矿作为锂电池材料的研究。尽管对Fe_3O_4的合成进行了广泛的研究，但我们的方法可在不限制介质或复杂设备的情况下提供出色的微晶尺寸控制。在电化学测试中，观察到性能与微晶尺寸之间有很强的相关性，导致容量增加了__30％。据我们所知，这是Fe_3O_4微晶尺寸的电化学效应的首次研究，其中所有纳米晶样品均使用相同的方法制备。

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《Electrochemical and solid-state letters》 |2009年第4期|共4页
作者
Shali Zhu; Amy C. Marschilok; Esther S. Takeuchi; Kenneth J. Takeuchi;
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1. Crystallite Size Control and Resulting Electrochemistry of Magnetite, Fe_3O_4 [J] . Shali Zhu, Amy C. Marschilok, Esther S. Takeuchi, Electrochemical and solid-state letters . 2009,第4期

机译：Fe_3O_4磁铁矿的微晶尺寸控制及所得电化学
2. Synthetic control of manganese birnessite: Impact of crystallite size on Li, Na, and Mg based electrochemistry [J] . Yin Jiefu, Takeuchi Esther S., Takeuchi Kenneth J., Inorganica Chimica Acta . 2016,第Null期

机译：锰水钠锰矿的合成控制：晶粒尺寸对基于Li，Na和Mg的电化学的影响
3. Synthetic Control of Composition and Crystallite Size of Silver Hollandite, Ag_xMn8O_(16): Impact on Electrochemistry [J] . Kenneth J. Takeuchi, Shall Z. Yau, Melissa C. Menard ACS applied materials & interfaces . 2012,第10期

机译：Ag_xMn8O_（16）的银荷兰沸石的组成和微晶尺寸的合成控制：对电化学的影响
4. Size Controllable Synthesis of Magnetite Fe_3O_4 Nanoparticles [C] . Hong Wang, Jian Chen, Ruisong Yang International Conference on Advances in Materials and Manufacturing Processes . 2011

机译：磁铁矿Fe_3O_4纳米粒子尺寸可控合成
5. Electrochemical deposition of silver and platinum nano-crystallites on the atomically smooth graphite basal plane: Characterization, particle size control, and chemical applications. [D] . Zoval, James Vincent. 1996

机译：银和铂纳米微晶在原子光滑的石墨基面上的电化学沉积：表征，粒度控制和化学应用。
6. Synthetic control of composition and crystallite size of silver hollandite AgxMn8O16: impact on electrochemistry [O] . Kenneth J. Takeuchi, Shali Z. Yau, Melissa C. Menard, -1

机译：合成控制银荷兰石的组成和微晶尺寸AGXMN8O16：对电化学的影响
7. Microwave-Assisted Synthesis of Silver Vanadium Phosphorus Oxide, Ag2VO2PO4: Crystallite Size Control and Impact on Electrochemistry [O] . Jianping Huang, Amy C. Marschilok, Esther S. Takeuchi, 2016

机译：微波辅助合成银钒磷氧化物，Ag2VO2PO4：微晶尺寸控制和对电化学的影响
8. Method of Controlling Crystallite Size in Nuclear-Reactor Fuels [R] . Lloyd, M. H., Collins, J. L., Shell, S. E. 1982

机译：控制核反应堆燃料中微晶尺寸的方法

Crystallite Size Control and Resulting Electrochemistry of Magnetite, Fe_3O_4

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