Solvothermal synthesis of micro-/nanoscale Cu/Li4Ti 5O12 composites for high rate Li-ion batteries

Electrochimica Acta

Volumn 123, Issue , 2014, Pages 346-352

  Li, Na ^a   Liang, Jianwen ^b   Wei, Denghu ^b   Zhu, Youngchun ^b   Qian, Yitai ^b  

^a HEFEI NORMAL UNIVERSITY   (China)

^b UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA   (China)

Author keywords

Cu Li4Ti5O12 composites; Electrochemical properties; Lithium ion batteries

Indexed keywords

ANODE ELECTRODE MATERIALS; ELECTROCHEMICAL PERFORMANCE; ELECTRONIC CONDUCTION; INITIAL DISCHARGE CAPACITIES; LITHIUM-ION BATTERY; NANOSIZED STRUCTURES; SOLVOTHERMAL METHOD; SOLVOTHERMAL SYNTHESIS;

ANODES; ELECTROCHEMICAL PROPERTIES; LITHIUM; NANOTECHNOLOGY; TRANSMISSION ELECTRON MICROSCOPY; X RAY DIFFRACTION;

LITHIUM BATTERIES;

EID: 84893281521     PISSN: 00134686     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.electacta.2014.01.063     Document Type: Article

References (35)

1. K. Zaghib, M. Armand, and M. Gauthier Electrochemistry of Anodes in Solid-State Li-Ion Polymer Batteries Journal of the Electrochemical Society 145 1998 3135 3140
2. 12 as a high rate electrode material for Li-ion intercalation Journal of the Electrochemical Society 154 2007 A692 A697
3. 12 nanosheets as anode materials for Li-ion batteries Electrochimica Acta 55 2010 6596 6600
4. K. Zaghib, M. Simoneau, M. Armand, and M. Gauthier Electrochemical study of Li4Ti5O12 as negative electrode for Li-ion polymer rechargeable batteries Journal of Power Sources 81 1999 300 305 (Pubitemid 32077828)
5. 12 Spinel Electrodes (0≤ x≤ 1) for Lithium Batteries Journal of the Electrochemical Society 148 2001 A102 A104
6. 12 nanotubes for energy storage materials Journal of Physical Chemistry C 113 2009 18420 18423
7. 12 microspheres for high rate lithium ion batteries Journal of Materials Chemistry 20 2010 6998 7004
8. 12 Hollow Spheres with Enhanced Lithium Storage Capability Advance Material 25 2013 2296 2300
9. T.F. Yi, J. Shu, Y.R. Zhu, X.D. Zhu, C.B. Yue, A.N. Zhou, and R.S. Zhu High-performance Li4Ti5-xVxO12 (0 ≤ x ≤ 0.3) as an anode material for secondary lithium-ion battery Electrochimica Acta 54 2009 7464 7470
10. 12 electrode by post-synthesis treatment in liquid formaldehyde at room temperature Journal of Materials Chemistry 22 2012 8013
11. 12 negative-electrode materials for high-rate Li-ion batteries Energy & Environmental Science 5 2012 9903
12. 12 as an effective anode material for lithium ion batteries with outstanding long-term cyclability and rate capabilities Journal of Materials Chemistry A 1 2013 89
13. 12-C microspheres for high power lithium ion batteries Journal of Materials Chemistry 21 2011 14414 14416
14. 12 on multi-walled carbon nanotubes: Novel coaxial nanocables for high rate lithium ion batteries Journal of Materials Chemistry 21 2011 761 767
15. 12 using amphiphilic carbonaceous material for improvement of lithium-ion battery performance Journal of Power Sources 214 2012 107 112
16. 12 with a variable amount of graphene as a conductive agent for rechargeable lithium-ion batteries by solvothermal method Materals Chemistry and Physics 136 2012 1044 1051
17. 12 with double surface modification of Ti(III) and carbon Journal of Materials Chemistry 19 2009 6789
18. 12/Ag composite as electrode materials for lithium-ion battery Solid State Ionics 177 2006 851 855 (Pubitemid 44313799)
19. 12/Ag composite by an electroless deposition method Electrochimica Acta 52 2007 3704 3708 (Pubitemid 46274624)
20. 12 Spheres for High-Rate Lithium-Ion Batteries ACS Applied Materials & Interfaces 4 2012 1233 1238
21. xO Composite Anode Materials for Lithium-Ion Batteries Journal of the Electrochemical Society 152 2005 A1301 A1305
22. 12/Cu composite anode for lithium ion batteries Journal of Alloys and Compounds 457 2008 400 403 (Pubitemid 351601646)
23. 12 hollow microspheres assembled by nanosheets as an anode material for high-rate lithium ion batteries Electrochimica Acta 54 2009 6244 6249
24. K. Amine, I. Belharouak, Z.H. Chen, T. Tran, H. Yumoto, N. Ota, S.T. Myung, and Y.K. Sun Nanostructured anode material for high-power battery system in electric vehicles Advance Materials 22 2010 3052 3057
25. S.H. Yu, A. Pucci, T. Herntrich, M.G. Willinger, S.H. Baek, Y.E. Sung, N. Pinna, and Surfactant -free nonaqueous synthesis of lithium titanium oxide (LTO) nanostructures for lithium ion battery applications Journal of Materials Chemistry 21 2011 806 810
26. 12 Anode of a Lithium-Ion Battery Journal of the American Chemical Society 134 2012 7874 7879
27. 12 consisting of nanosheets Electrochemistry Communications 10 2008 1513 1516
28. 12 double spinel anode material with improved rate performance for Li-ion batteries Electrochemistry Communications 11 2009 50 53
29. Q. Yu, H. Huang, R. Chen, P. Wang, H. Yang, M. Gao, X. Peng, and Z. Ye Synthesis of CuO nanowalnuts and nanoribbons from aqueous solution and their catalytic and electrochemical properties Nanoscale 4 2012 2613 2620
30. 12/C prepared by one-step solid-state reaction ElectrochimicaActa 56 2011 5046 5053
31. 12 on multi-walled carbon nanotubes: novel coaxial nanocables for high rate lithium ion batteries Journal of Materials Chemistry 21 2011 761 767
32. 12 Negative Electrode via Carbon-Coated Mesoporous Uniform Pores with a Simple Self-Assembly Method Advanced Functional Materials 21 2011 4349 4357
33. 12/C composite for Li-ion batteries Materials Letters 78 2012 177 179
34. L.F. Shen, E. Uchaker, C.Z. Yuan, P. Nie, M. Zhang, X.G. Zhang, and G.Z. Cao Three-Dimensional Coherent Titania - Mesoporous Carbon Nanocomposite and Its Lithium-Ion Storage Properties ACS Applied Materials & Interfaces 4 2012 2985 2992
35. 12/graphene hybrid materials with low polarization for high rate lithium ion batteries Journal of Power Sources 196 2011 8610 8617