Synthesis and electrochemistry of nanocrystalline iron and manganese oxide materials

机译：纳米晶铁锰氧化物材料的合成与电化学

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Identification of viable energy storage materials based on inexpensive, earth abundant metal centers is one of the most pressing issues for development of future battery technologies. In addition, low temperature, scalable methodologies are needed for active material synthesis. Preparation, characterization, and electrochemical evaluation of three promising battery materials are described herein. This work will contribute to materials advances in the development of environmentally sustainable materials for new battery technologies.

机译：基于廉价的，富含地球的金属中心来确定可行的储能材料是未来电池技术发展中最紧迫的问题之一。另外，活性材料合成需要低温，可扩展的方法。本文描述了三种有前景的电池材料的制备，表征和电化学评估。这项工作将有助于开发用于新电池技术的环境可持续材料的材料进步。

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《Intercalation compounds for rechargeable batteries》|2011年|21-28|共8页
会议地点 Boston MA(US)
作者
Shali Z. Yau; Katie E. Farley; Amy C. Marschilok; Esther S. Takeuchi; Kenneth J. Takeuchi;
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Department of Chemistry, University at Buffalo (SUNY), Buffalo, New York 14260, USA;

Department of Chemistry, University at Buffalo (SUNY), Buffalo, New York 14260, USA;

Department of Chemistry, University at Buffalo (SUNY), Buffalo, New York 14260, USA Department of Electrical Engineering, University at Buffalo (SUNY), Buffalo, New York 14260, USA Department of Chemical and Biological Engineering, University at Buffalo (SUNY), Buffalo, New York 14260, USA;

Department of Chemistry, University at Buffalo (SUNY), Buffalo, New York 14260, USA Department of Electrical Engineering, University at Buffalo (SUNY), Buffalo, New York 14260, USA Department of Chemical and Biological Engineering, University at Buffalo (SUNY), Buffalo, New York 14260, USA Department of Biomedical Engineering, University at Buffalo (SUNY), Buffalo, New York 14260, USA;

Department of Chemistry, University at Buffalo (SUNY), Buffalo, New York 14260, USA;

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1. Nanocrystalline iron oxide based electroactive materials in lithium ion batteries: the critical role of crystallite size, morphology, and electrode heterostructure on battery relevant electrochemistry [J] . Andrea M. Bruck, Christina A. Cama, Cara N. Gannett Inorganic Chemistry Frontiers . 2016,第1期

机译：锂离子电池中基于纳米晶氧化铁的电活性材料：微晶尺寸，形态和电极异质结构在电池相关电化学中的关键作用
2. Tuning the redox properties of manganese(II) and its implications to the electrochemistry of manganese and iron superoxide dismutases [J] . Sjodin M, Gatjens J, Tabares LC, Inorganic Chemistry: A Research Journal that Includes Bioinorganic, Catalytic, Organometallic, Solid-State, and Synthetic Chemistry and Reaction Dynamics . 2008,第7期

机译：调节锰的氧化还原特性（II）及其对锰和铁超氧化物歧化酶的电化学影响
3. New nanocrystalline manganese oxides as cathode materials for lithium batteries: Electron microscopy, electrochemical and X-ray absorption studies [J] . Strobel P, Darle C, Thiery F, Solid state ionics . 2006,第5a6期

机译：新型纳米晶锰氧化物作为锂电池的正极材料：电子显微镜，电化学和X射线吸收研究
4. Synthesis and electrochemistry of nanocrystalline iron and manganese oxide materials [C] . Shali Z. Yau, Katie E. Farley, Amy C. Marschilok, ECS Meeting . 2012

机译：纳米晶铁和氧化锰材料的合成与电化学
5. Nanostructured Iron and Manganese Oxide Electrode Materials for Lithium Batteries: Influence of Chemical and Physical Properties on Electrochemistry [D] . Durham, Jessica L. 2016

机译：用于锂电池的纳米结构铁和氧化锰电极材料：化学和物理性质对电化学的影响
6. Isolation of the Escherichia coli iron superoxide dismutase gene: evidence that intracellular superoxide concentration does not regulate oxygen-dependent synthesis of the manganese superoxide dismutase. [O] . C J Nettleton, C Bull, T O Baldwin, 1984

机译：大肠杆菌铁超氧化物歧化酶基因的分离：证据表明细胞内超氧化物的浓度不调节锰超氧化物歧化酶的氧依赖性合成。
7. New nanocrystalline manganese oxides as cathode materials for lithium batteries : electron microscopy, electrochemical and X-ray absorption studies [O] . Strobel Pierre, Darie Céline, Thiéry François, 2006

机译：新型纳米晶锰氧化物作为锂电池的阴极材料：电子显微镜，电化学和X射线吸收研究
8. Solution synthesis and characterization of lithium manganese oxide cathode materials [R] . Voigt, J. A. , Boyle, T. J. , Doughty, D. H. 1995

机译：锂锰氧化物阴极材料的溶液合成与表征

Synthesis and electrochemistry of nanocrystalline iron and manganese oxide materials

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