Effect of particle size on rate capability and cyclic stability of LiNi0.5Mn1.5O4 cathode for high-voltage lithium ion battery

Journal of Solid State Electrochemistry

Volumn 19, Issue 2, 2015, Pages 569-576

  Xue, Liang ^a   Li, Xiaoping ^a   Liao, Youhao ^a,b   Xing, Lidan ^a   Xu, Mengqing ^a   Li, Weishan ^a  

^a SOUTH CHINA NORMAL UNIVERSITY   (China)

^b Guangdong Zhongke Xintai New Energy Co   (China)

Author keywords

Cyclic stability; High voltage lithium ion battery; Lithium nickel manganese oxide; Particle size; Rate capability

Indexed keywords

CATHODES; CYCLIC VOLTAMMETRY; ELECTROCHEMICAL IMPEDANCE SPECTROSCOPY; IONS; LITHIUM METALLOGRAPHY; LITHIUM-ION BATTERIES; MANGANESE METALLOGRAPHY; MANGANESE OXIDE; NICKEL METALLOGRAPHY; NICKEL OXIDE; PARTICLE SIZE; SCANNING ELECTRON MICROSCOPY; STABILITY; X RAY DIFFRACTION;

CHARGE/DISCHARGE TEST; CYCLIC STABILITY; ELEVATED TEMPERATURE; HIGH VOLTAGE; INTERFACIAL RESISTANCES; LITHIUM NICKEL MANGANESE OXIDES; POLYVINYL PYRROLIDONE; RATE CAPABILITIES;

LITHIUM COMPOUNDS;

EID: 84925481977     PISSN: 14328488     EISSN: 14330768     Source Type: Journal    
DOI: 10.1007/s10008-014-2635-4     Document Type: Article

References (33)

1. Tang W, Tian S, Liu LL, Li L, Zhang HP, Yue YB, Bai Y, Wu YP, Zhu K (2011) Electrochem Commun 13:205–208
2. Park OK, Cho Y, Lee S, Yoo HC, Song HK, Cho J (2011) Energy Environ Sci 4:1621–1633
3. Kraytsberg A, Ein-Eli Y (2012) Adv Energy Mater 2:922–939
4. Wang HL, Xia H, Lai MO, Lu L (2009) Electrochem Commun 11:1539–1542
5. Li BZ, Xing LD, Xu MQ, Lin HB, Li WS (2013) Electrochem Commun 34:48–51
6. Fang HS, Li LP, Li GS (2007) J Power Sources 167:223–227
7. Kunduraci M, Amatucci GG (2008) Electrochim Acta 53:4193–4199
8. Ma LW, Chen BZ, Shi XC, Zhang W, Zhang K (2010) Colloids Surf A 369:88–94
9. Yoon T, Park S, Mun J, Ryu JH, Choi W, Kang YS, Park JH, Oh SM (2012) J Power Sources 215:312–316
10. Zhou L, Zhao D, Lou X (2012) Angew Chem Int Ed Engl 51:239–241
11. Zhang X, Cheng F, Yang J, Chen J (2013) Nano Lett 13:2822–2825
12. Lin HB, Zhang YM, Hu JN, Wang YT, Xing LD, Xu MQ, Li XP, Li WS (2014) J Power Sources 257:37–44
13. Shaju KM, Bruce PG (2008) Dalton Trans 5471–5475
14. Zhang X, Cheng F, Zhang K, Liang Y, Yang S, Liang J, Chen J (2012) RSC Adv 2:5669–5675
15. Rho YH, Dokko K, Kanamura K (2006) J Power Sources 157:471–476
16. Kim DK, Muralidharan P, Lee HW, Ruffo R, Yang Y, Chan CK, Peng H, Huggins RA, Cui Y (2008) Nano Lett 8:3948–3952
17. Ding YL, Goh BM, Zhang H, Loh KP, Lu L (2013) J Power Sources 236:1–9
18. Lee HW, Muralidharan P, Mari CM, Ruffo R, Kim DK (2011) J Power Sources 196:10712–10716
19. Xiang XD, Fu Z, Li WS (2013) J Solid State Electrochem 17:1201–1206
20. Xiao XC, Lu P, Ahn D (2011) Adv Mater 23:3911–3915
21. Matsuda K, Taniguchi I (2004) J Power Sources 132:156–160
22. Amatucci G, Pasquier AD, Blyr A, Zheng T, Tarascon JM (1999) Electrochim Acta 45:255–271
23. Kim HJ, Choi Y, Yoon S, Cho JJ (2007) Electrochem Commun 9:801–806
24. Wei GZ, Lu X, Ke FS, Huang L, Li JT, Wang ZX, Zhou ZY, Sun SG (2010) Adv Mater 22:4364–4367
25. Wang J, Yao XY, Zhou XF, Liu ZP (2011) J Mater Chem 21:2544–2549
26. Xiang XD, Li XQ, Li WS (2013) J Power Sources 230:89–95
27. Yi TF, Xie Y, Zhu YR, Ye MF (2012) J Power Sources 211:59–65
28. Talyosef Y, Markovsky B, Salitra G, Aurbach D, Kim HJ, Choi S (2005) J Power Sources 146:664–669
29. Chen D, Li B, Liao Y, Lan H, Lin H, Xing L, Wang Y, Li W (2014) J Solid State Electrochem 18:2027–2033
30. Aklalouch M, Amarilla JM, Saadoune I, Rojo JM (2011) J Power Sources 196:10222–10227
31. Bruce PG, Scrosati B, Tarascon JM (2008) Angew Chem Int Ed Engl 47:2930–2946
32. Wang Y, Li H, He P, Hosono E, Zhou H (2010) Nanoscale 2:1294–1305
33. Li B, Wang YQ, Rong HB, Wang YT, Liu JS, Xing LD, Xu MQ, Li WS (2013) J Mater Chem A 1:12954–12961