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The effects of FEC (fluoroethylene carbonate) electrolyte additive on the lithium storage properties of NiO (nickel oxide) nanocuboids

机译：FEC（碳酸氟亚乙酯）电解质添加剂对NiO（氧化镍）纳米立方锂储能性能的影响

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Nanocuboid shaped NiO (nickel oxide) has been synthesized using an optical floating zone furnace. It was found that the nanocuboids exhibit single crystalline nature, and have clean and sharp edges. Furthermore, the NiO nanocuboids were tested for their electrochemical performances as anode material for LIBs (lithium-ion batteries) in a coin-type half cell. The effects of FEC (fluoroethylene carbonate) additive on the lithium storage performance were also investigated, which is the first of such studies for transition metal oxides. It was found that FEC has a positive effect on the cycling stability and also improves the rate performances of the nanocuboids. The capacity recorded at 0.1C (100mAg-1) after 50 charge/dischargecycles is 1400mAhg-1. Lastly, the NiO nanocuboids can achieve very high rate capability of 12C (12Ag-1) with capacity of 312mAhg-1. 2013 Elsevier Ltd.

机译：已经使用光学浮区炉合成了纳米立方体形状的NiO（氧化镍）。已经发现，纳米立方体表现出单晶性质，并且具有清洁和锋利的边缘。此外，测试了NiO纳米立方作为纽扣型半电池中LIB（锂离子电池）阳极材料的电化学性能。还研究了FEC（碳酸氟亚乙酯）添加剂对锂储存性能的影响，这是过渡金属氧化物研究的首次。发现FEC对循环稳定性具有积极作用，并且还改善了纳米立方的速率性能。 50次充/放电后在0.1C（100mAg-1）处记录的容量为1400mAhg-1。最后，NiO纳米立方可以实现12C（12Ag-1）的极高倍率容量，容量为312mAhg-1。 2013爱思唯尔有限公司

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Seng, Kuok H; Li, Li; Chen, Dapeng; Chen, Zhixin; Wang, Xiaolin; Liu, Hua-Kun; Guo, Zaiping;
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1. The effects of FEC (fluoroethylene carbonate) electrolyte additive on the lithium storage properties of NiO (nickel oxide) nanocuboids [J] . Kuok Hau Seng, Li Li, Da-Peng Chen, Energy . 2013,第SEPa1期

机译：FEC（碳酸氟亚乙酯）电解质添加剂对NiO（氧化镍）纳米立方锂储能性能的影响
2. Investigating the effect of a fluoroethylene carbonate additive on lithium deposition and the solid electrolyte interphase in lithium metal batteries usingin situNMR spectroscopy [J] . Gunnarsdottir Anna B., Vema Sundeep, Menkin Svetlana, Journal of Materials Chemistry, A. Materials for energy and sustainability . 2020,第30期

机译：使用in SitunMR光谱研究锂金属电池锂碳酸酯添加剂对锂沉积和固体电解质相互作用的研究
3. Investigating the effect of a fluoroethylene carbonate additive on lithium deposition and the solid electrolyte interphase in lithium metal batteries using in situ NMR spectroscopy (vol 8, pg 14975, 2020) [J] . Gunnarsdottir Anna B., Vema Sundeep, Menkin Svetlana, Journal of Materials Chemistry, A. Materials for energy and sustainability . 2020,第35期

机译：使用原位NMR光谱研究碳腈添加剂对锂金属电池锂沉积和固体电解质相互作用的影响（Vol 8，PG 14975,2020）
4. EFFECTS OF MANGANESE(II), COBALT(II), AND NICKEL(II) ADDITIVES IN ELECTROLYTE ON PERFORMANCE OF GRAPHITE ELECTRODE FOR LITHIUM ION BATTERIES [C] . Shinichi KOMABA, Naoaki KUMAGAI, Yoichi KATAOKA, Joint Meeting of the Electrochemical Society and the International Society for Electrochemistry . 2003

机译：电解质电解质中锰（II），钴（II），镍（II）添加剂对锂离子电池石墨电极性能的影响
5. Synthesis of some vanadium oxides and layered lithium nickel(1-y-z)manganese(y)cobalt(z)oxide compounds and their properties as cathodes for lithium-ion batteries. [D] . Ngala, J. Katana. 2004

机译：某些钒氧化物和层状锂镍（1-y-z）锰（y）钴（z）氧化物的合成及其作为锂离子电池正极的性能。
6. Effects of a Carbon Nanotube Additive on the Corrosion-Resistance and Heat-Dissipation Properties of Plasma Electrolytic Oxidation on AZ31 Magnesium Alloy [O] . Myungwon Hwang, Wonsub Chung 2018

机译：碳纳米管添加剂对AZ31镁合金上等离子体电解氧化的耐蚀性和散热性能的影响
7. Investigating the effect of a fluoroethylene carbonate additive on lithium deposition and the solid electrolyte interphase in lithium metal batteries using in situ NMR spectroscopy [O] . Anna B. Gunnarsdóttir, Sundeep Vema, Svetlana Menkin, 2020

机译：使用原位NMR光谱研究锂金属电池锂沉积锂沉积和固体电解质相互作用的研究

The effects of FEC (fluoroethylene carbonate) electrolyte additive on the lithium storage properties of NiO (nickel oxide) nanocuboids

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