热处理气氛对LFP-玻璃析晶种类与形貌的影响

THE INFLUENCE OF HEATING-TREATMENT CONDITION ON CRYSTALLIZATION SPECIES AND MORPHOLOGY OF LFP-GLASS

下载PDF

导出

摘要利用相图设计配方,采用熔融法制备LFP-玻璃(锂铁磷酸盐玻璃)粉末。将玻璃粉与柠檬酸混合,在氮气气氛中热处理制备LiFePO4/C复合材料,并考察玻璃在氮气气氛、空气气氛热处理时样品的组成与形貌变化。选用热重/差示扫描量热仪(TG/DSC)、X-射线衍射(XRD)、扫描电子显微镜(SEM)、能谱仪(EDS)对样品进行热性能分析、物相分析、微观形貌分析和元素成分分析。结果显示:玻璃粉在空气气氛中热处理获得Li3Fe2(PO4)3和Fe2O3;玻璃粉在氮气条件下热处理获得Li3Fe2(PO4)3与LiFePO4;玻璃粉与柠檬酸混合在氮气气氛中热处理获得LiFePO4/C复合材料;热处理气氛对LFP-玻璃析晶种类与形貌有直接影响。 Making use of diagram to design ingredient; lithium obtained by melting method, The glass powers were mixed with nitric iron phosphate glass powers had been acid and heatingtreated under nitrogen condition to prepare LiFePO4/C composite, meanwhile, the changes of sample＇ s composition and morphology were also observed when glass powers were heatingtreated under nitrogen and air conditions. The sample Ts thermal property, composition, microstructure, element were analyzed by means of thermogravimetric analysis/ differential scanning calorimetry instrument, xray diffraction, scanning electron microscope, energy dispersive x-ray spectroscopy. The result illustrate that： Li3Fe2（PO4）3 and Fe203 were prepared when heating-treat glass under air condition; Li3Fe2（PO4）3 and LiFePQ are prepared when heatingteat glass under nitrogen conditiom LiFePO4/C composite is prepared when heatingtreat glass mixed nitric acid under nitrogen condition; Heating treatment condition has direct influence on the crystallization species and morohologv.

作者李晓生魏礼杰林蔚

机构地区齐齐哈尔大学材料科学与工程学院

出处《中国陶瓷》 CAS CSCD 北大核心 2012年第3期20-24,共5页 China Ceramics

关键词 LFP-玻璃 Li3Fe2(PO4)3 LiFePO4 LiFePO4/C复合材料 lithium iron phosphate glass, Li3Fe2（PQ）3, LiFePO4, LiFePO4/C composite

分类号 TM912 [电气工程—电力电子与电力传动]

引文网络
相关文献

参考文献10

1K.Mizushima, P.C.Jones, P.J.Wiseman, et al. LixCoO2 (0<x<-1). A new cathode material for batteries of high energy density [J]. Materials Research Bulletin, 1980, 15(6): 783-789.
2M.Broussely,F.Perton,P.Biensan,et al.LixNiO2,apromising cathode for rechargeable lithium batteries[J].Journal of Power Sources,1995,54(1):109-114.
3R.J.Gummow,A.de Kock,M.M.Thackeray.Improved capacity retention in rechargeable 4 V lithium/lithium manganese oxide(spinel)cells[J].Solid StateIonics,1994,69:59-67.
4A.K.Padhi,K.S.Nanjundaswamy,J.B.Goodenough.Phospho-olivines as Positive-Electrode Materials forRechargeable Lithium Batteries[J].J.Electrochem.Soc,1997,144(4):1188-1194.
5Xueliang Li,Weidong Wang,Chengwu Shi,etal.Structural and electrochemical characterization ofLiFePO4/C prepared by a sol gel route with long-andshort-chain carbon sources[J].J Solid State Electrochem,2009,13:921-926.
6B.Ellis,Wang Hay Kan,W.R.M.Makahnouk,etal.Synthesis of nanocrystals and morphology control ofhydrothermally prepared LiFePO4[J].J.Mater.Chem.,2007,17:3248-3254.
7H.Liu,C.Li,H.P.Zhang,L.J.Fu,et al.Kineticstudy on LiFePO4/C nanocomposites synthesized by solidstate technique[J].Journal of Power Sources,2006,159(1):717-720.
8冯泽荣,张俊英,张中太,唐子龙,黄彦,吉双泽.以氧化铁为铁源制备磷酸铁锂的反应机制研究[J].稀有金属,2009,33(3):361-365. 被引量：11
9Shyue Ping Ong,Lei Wang,Byoungwoo Kang,etal.Li-Fe-P-O2 Phase Diagram from First PrinciplesCalculation[J].Chem.Mater,2008,20:1798-1807.
10C.S.Ray,X.Fang,M.Karabulut,et al.Effectof melting temperature and time on valence andcrystallization of iron phosphate glasses[J].Journal ofNon-Crystalline Solids,1999,249:1-16.

二级参考文献13

1卢俊彪,张中太,唐子龙,郑子山.一种新型的锂离子电池正极材料——LiFePO_4[J].稀有金属材料与工程,2004,33(7):679-683. 被引量：21
2米常焕,曹高劭,赵新兵.碳包覆LiFePO_4的一步固相法制备及高温电化学性能[J].无机化学学报,2005,21(4):556-560. 被引量：21
3刘辉,李平,魏雨,孙予罕.红外光谱技术在铁氧化物形成研究中的应用[J].河北师范大学学报（自然科学版）,2005,29(3):272-276. 被引量：15
4龚竹青,龚胜,陈白珍,周波.用硫铁矿烧渣制取海绵铁的碳还原过程[J].中南大学学报（自然科学版）,2006,37(4):703-708. 被引量：13
5郭培民,赵沛,张殿伟.低温下碳还原氧化铁的催化机理研究[J].钢铁钒钛,2006,27(4):1-5. 被引量：29
6Liu Huiping, Wang Zhixing, Li Xinhai, Guo Huajun, Peng Wenjie, Zhang Yunhe, Hu Qiyang. Synthesis and electrochemical properties of olivine LiFePO4 prepared by a carbothermal reduction method [J]. J. Power Sources, 2008,184: 469.
7Kim H S, Cho B W, Cho W I. Cycling performance of LiFePO4 cathode material for lithium secondary batteries [ J ]. J. Power Sources, 2004,132(1-2): 235.
8Scrosati B. Recent advances in lithium ion battery materials [J]. Electrochimica Acta, 2000, 45: 2461.
9Huang H, Yin S C, Nazar L F. Approaching theoretical capacity of LiFePO4 at room temperature at high rates [ J]. Electrochem. Solid State Lett. , 2001 , 4(10) : A170.
10Chung S Y, Blocking J T, Chiang Y M. Electronically conductive phospho-olivines as lithium storage electrodes [ J ]. Nature Mater. , 2002, 2: 123.

共引文献10

1欧传奇.磷酸铁锂研究现状概述[J].新疆有色金属,2012,35(S1):143-144.
2李文娟,张宏坤,贾海涛,张玉峰,张彦杰,丁克强.锂离子电池正极材料LiFePO_4的研究新进展[J].河北工业科技,2011,28(3):216-220. 被引量：10
3周兰花,陶东平,曾富洪.基于遗传算法的MIVM预测合金溶液组元活度[J].稀有金属,2011,35(4):531-536. 被引量：7
4魏礼杰,刘剑虹,李晓生.热处理时间对LiFePO_4的晶体影响[J].齐齐哈尔大学学报（自然科学版）,2012,28(1):72-74.
5周宇,高运明,马秀娟,郑鑫,汪猛,王兵.FeO的制备及其室温下稳定性研究[J].武汉科技大学学报,2013,36(5):383-386. 被引量：7
6马木林.磷酸二氢锂的研究进展[J].江西化工,2014,30(2):62-63. 被引量：1
7焦龙庵,陶兴付,黄晓波,李旭,黎正伟,任玲玲.基于纳米CT对磷酸铁锂三维形貌结构的研究[J].电子显微学报,2015,34(2):94-98.
8许帅,宋冰宜,蒋文龙,杨斌.几种热力学模型应用于二元合金中各组元活度计算的研究[J].真空科学与技术学报,2015,35(8):919-925. 被引量：6
9何玉林.碳热还原反应温度对磷酸铁锂电池性能的影响[J].电源技术,2018,42(12):1797-1798. 被引量：2
10程林,罗剑锋,李威,肖勇,李瑶瑶.Cu-Pb和Cu-Sn二元合金的活度计算与分析[J].兵工自动化,2019,38(8):10-13. 被引量：3

1宋翠环,孙军康,黄富强,刘战强,何品刚.Mn掺杂Li3Fe2(PO4)3正极材料的制备与表征[J].功能材料,2009,40(4):604-607. 被引量：3
2孙军康,黄富强,王耀明,刘战强.Li_3Fe_2(PO_4)_3正极材料的制备及电化学性能研究[J].合成化学,2007,15(B11):117-121. 被引量：1
3童设华,习小明,湛中魁,胡常波.H_2还原制备LiFePO_4/C复合材料及反应机理[J].电池,2010,40(2):93-95. 被引量：1
4梁逵,陈艾,何莉,谭昌瑶.热处理气氛及掺钴对NiO电极赝电容器性能的影响[J].电子元件与材料,2001,20(5):1-2. 被引量：6
5马卫平,王朔.利用扫描电镜测量元素成分分析变压器故障[J].吉林电力,1999,27(1):23-24. 被引量：1
6黎彦希,赵萱,胡晨.锂离子电池正极材料LiNi_(0.5)Mn_(0.5)O_2制备及性能[J].国外建材科技,2008,29(5):9-11.
7孙帅,张国庆.钙钛矿型氧化物LaFe_(1-x)Ni_xO_3(x=0～1.0)的微观形貌分析及表征[J].甘肃科学学报,2013,25(1):55-58.
8晓宁.熔融法制备Gd123系块体超导材料及其性能[J].等离子体应用技术快报,2000(8):25-27.
9魏静微,黄全全,谭勇,武会延.2MW空冷风力发电机热性能分析及改善[J].哈尔滨理工大学学报,2016,21(6):79-83. 被引量：4
10陈赟华,杨勇.一氧化碳还原法制备磷酸铁锂—反应机理和动力学[J].电化学,2008,14(4):388-393. 被引量：4

中国陶瓷

2012年第3期

浏览历史

内容加载中请稍等...

热处理气氛对LFP-玻璃析晶种类与形貌的影响

参考文献10

二级参考文献13

共引文献10

相关作者

相关机构

相关主题

浏览历史