在固相法合成纳米 Li4 Ti5 O12电极材料的过程中采用精细化砂磨技术,研究发现砂磨处理时间是影响纳米Li4 Ti5 O12微观结构和电化学性能的关键因素,XRD表明砂磨处理后 Li4 Ti5 O12仍为尖晶石结构,粒度分布和 SEM 照片显示经过精细化砂磨处理后, Li4 Ti5 O12颗粒平均粒径由500 nm 减小为370 nm,粒径分布也更加均匀;电化学性能评价结果显示,砂磨处理可使 Li4 Ti5 O12电极材料倍率比容量增大约10~20 mAh/g,高倍率下增幅较低倍率更大,100次循环容量基本无衰减,稳定性很好。
The nano Li4 Ti5 O12 was prepared in the solid phase synthesis process with refining sand milling tech-nique was used.In the experiment we found that the sand milling time was the key factor for the microstructure of Li4 Ti5 O12 and its electrochemical performance.The XRD patterns showed that the product remained spinel structure as usual after sand milling process.The particle size distribution and SEM images showed that the av-erage particle size decreased from 500 to 370 nm with the higher dispersivity.Also,the rate capability of the product was improved of about 10-20 mAh/g at the each current intensity after the sand milling process,and this active result will be more clearly at the higher current intensity.Also,the product remains good stability, and the capability has no decrease after 100 times cycling.
参考文献
| [1] | Healica l S .Microtubules graphite carbon[J].Nature,1991,354:56-58. |
| [2] | Tsutomu Ohzuku;Atsushi Ueda;Norihiro Yamamoto;Yasunobu Iwakoshi .Factor affecting the capacity retention of lithium-ion cells[J].Journal of Power Sources,1995(1):99-102. |
| [3] | Ohzuku T;Ueda A;Yamamoto N .Zero-strain insertion material of Li [Li1/3 Ti5/3]O4 rechargeable lithium cells[J].Electrochem Soc,1995,142:1431-1435. |
| [4] | Wu Y P;Dai X B;Ma J Q.Lithium ion batteries-practice and application[M].Beij ing:Chemical Industry Press,2004 |
| [5] | G.X. Wang;D.H. Bradhurst;S.X. Dou .Spinel Li[Li_1/3Ti_5/3]O_4 as an anode material for lithium ion batteries[J].Journal of Power Sources,1999(1/2):156-161. |
| [6] | Zaghib K;Simoneau M;Armand M et al.Electrode for Li-ion polymer rechargeable batteries[J].J Power Sources,1999,81-82:300-305. |
| [7] | 姚经文,吴锋,官亦标.尖晶石Li4Ti5O12中锂离子的化学扩散系数的研究[J].无机化学学报,2007(08):1439-1442. |
| [8] | 苏岳锋,吴锋,陈朝峰.纳米微晶TiO2合成Li4Ti5O12及其嵌锂行为[J].物理化学学报,2004(07):707-711. |
| [9] | Jiang C H;Masaki I;Itaru H et al.Effect of particle dispersion on high rate performance of nano-sized Li4Ti5O12 anode[J].Electrochimica Acta,2007,52:6470-6475. |
| [10] | Huang S H;Wen Z Y;Zhu X J et al.Effects of dopant on the electrochemical performance of Li4 Ti5 O12 as elec-trode material for lithium ion batteries[J].J Power Sources,2007,165:408-412. |
| [11] | Ganesan M;Dhananj eyan M V T;Sarangapani K B et al.Solid state rapid quenching method to synthesize micron size Li4 Ti5 O12[J].J Electroceram,2007,18:329-337. |
| [12] | Inagaki H M;Takami N M .Nonaqueous electrolyte bat-tery,lithium-titanium composite oxide,battery pack and vehicle[P].EP:1722439A1,2006-11-15. |
| [13] | Holzapfel M;Laumann A;Nuspl G et al.Process for producing lithium titanium spinel and use thereof[P].WO:2009146904A1,2009-06-03. |
| [14] | Fukita T;Kinoshita Y .Lithium titanate,its production and lithium battery using the same[P].JP:9309727(A),1997-12-02. |
| [15] | Fukita T;Kinoshita Y .Metal substituted lithium titan-ate,its production and lithium battery using the same[P].JP:10251020(A),1998-09-22. |
| [16] | 王瑾,成雪莲,王子港,杨晖.无水溶胶-凝胶法合成Li_4Ti_5O_(12)纳米晶及性能研究[J].功能材料,2010(02):218-221,224. |
| [17] | 王瑾,李雅楠,成雪莲,杨晖.溶胶-凝胶法合成Li4Ti5O12/C复合材料及性能研究[J].功能材料,2010(12):2182-2185,2189. |
| [18] | Tang Y F;Yang L;Qiu Z et al.Template-free synthe-sis of mesoporous spinel lithium titanate microspheres and their application in high-rate lithium ion batteries[J].J Mater Chem,2009,19:5980-5984. |
| [19] | 唐致远,高飞,韩彬.锂离子电池负极材料Li4Ti5O12的研究进展[J].化工进展,2006(02):159-162. |
| [20] | 李玥,赵海雷,仇卫华,李雪.二次锂离子电池负极材料Li4Ti5O12的研究进展[J].硅酸盐通报,2007(01):92-96. |
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