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时间:2020-04-25
《一种富集氰化金泥中金的方法-论文.pdf》由会员上传分享,免费在线阅读,更多相关内容在应用文档-天天文库。
1、70无机盐工业第46卷第3期4结束语[8]LiuJun,XiaHui,LuLi,eta1.AnisotropicCosO4porousnanocapsulestowardhigh—capacityL-ionbatteries[J].J.Mater.Chem.,2010,20:目前,在不影响C0O材料作为锂电池负极材料l506—1510.具有比容量大特点的情况下.通过不同的制备方法[9]GuoXiaohui,XuWeiwei,LiSirong,eta1.Surfactant—freescalablesynthesisofhierarchicallysphericalCo3sup
2、erstructuresandtheir已经能够改进其循环性能差、使用寿命短等问题。但enhancedlithium—ionstorageperformances[J1.Nanotechnology,是.现有的制备方法距离实际的工业化生产还存在2012,23(46):465401.一定的距离。通过改变CoO的形貌与结构,采取复[10]ZhengJun,LiuJing,LvDongping,eta1.Afacilesynthesisof合及改性等方法可以提高嵌、脱锂过程中电子的传flower—likeCo304porousspheresforthelithium—ionbatt
3、ery导率同时维持结构的稳定.使其能够成为高能密度electrode[J].J.SolidStateChem.,2010,183(3):600-605.锂离子电池很有潜力的负极材料开发研究钴氧化[11]GuoBing,LiChunsheng,YuanZhongyong,eta1.NanostructuredCo304materials:Synthesis,characterization,andelectrochemical物系负极材料具有重要的实际应用价值behaviorsasanodereactantsinrechargeablelithiumionbatte·参考文献:
4、ties[J].J.Phys.Chem.,2010,114(29):12805—12817.[12]LuYan,WangYong,ZouYufqin,eta1.MacroporousCo304platelets[1]YaoXiwin,XinKing,ZhangYiming,eta1.Co304nanowiresashighwithexcellentratecapabilityasanodesforlithiumionbatteri—capacityanodematerialsforlithiumionbatteries[J].J.Alloyses[J].Electrochem
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7、uredthinfilmforlithium-2012,116:7227-7235.ionbattery[J].J.PowerSources,2008,182(1):359—364.[4]KangYong-Mook,SongMin—Sang,KimJin—Ho,eta1.Astudyonthe[15]HwaYoon,KimWon—Sik,YuByeong—Chul,eta1.Enhancementofcharge—dischargemechanismofCo304asananodefortheLiion
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