Comparison of (BiO)2CO3 to CdCO3 as anode materials for lithium-ion batteries

Ceramics International

Volumn 40, Issue 3, 2014, Pages 4623-4630

  Shao, Lianyi ^a   Wang, Songying ^a   Wu, Kaiqiang ^a   Shui, Miao ^a   Ma, Rui ^a   Wang, Dongjie ^a   Long, Nengbing ^a   Ren, Yuanlong ^a   Shu, Jie ^a  

^a NINGBO UNIVERSITY   (China)

Author keywords

A. Milling; B. X ray methods; C. Electrical properties; E. Batteries

Indexed keywords

CAPACITY RETENTION; CONDUCTIVE ADDITIVES; E. BATTERIES; ELECTROCHEMICAL BEHAVIORS; ELECTROCHEMICAL REACTIONS; LITHIUM-ION BATTERY; REVERSIBLE CAPACITY; X RAY METHODS;

ANODES; CADMIUM ALLOYS; ELECTRIC PROPERTIES; ELECTROCHEMICAL CORROSION; LITHIUM COMPOUNDS; X RAY DIFFRACTION;

LITHIUM;

EID: 84891372166     PISSN: 02728842     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.ceramint.2013.08.140     Document Type: Article

References (32)

1. H.L Chen, G. Hautier, A. Jain, C. Moore, B. Kang, R. Doe, L.J. Wu, Y.M. Zhu, Y.Z. Tang, and G. Ceder Carbonophosphates: a new family of cathode materials for Li-ion batteries identified computationally Chemistry of Materials 24 2012 2009 2016
2. 4 nanowires as high capacity anode materials for lithium ion batteries Journal of Alloys and Compounds 521 2012 95 100
3. A.K. Rai, L.T. Anh, C.J. Park, and J. Kim Electrochemical study of NiO nanoparticles electrode for application in rechargeable lithium-ion batteries Ceramics International 39 2013 6611 6618
4. S.D. Seo, D.H. Lee, J.C. Kim, G.H. Lee, and D.W. Kim Room-temperature synthesis of CuO/graphene nanocomposite electrodes for high lithium storage capacity Ceramics International 39 2013 1749 1755
5. 4/carbon micro-flowers and their application to lithium-ion battery anodes Journal of Power Sources 196 2011 3887 3893
6. 2 for lithium ion battery Journal of Power Sources 146 2005 264 269
7. C.C. Dong, X.D. Zheng, B. Huang, and M. Lu Enhanced electrochemical performance of FeS coated by Ag as anode for lithium-ion batteries Applied Surface Science 265 2013 114 119
8. B. Das, M.V. Reddy, P. Malar, T. Osipowicz, G.V.S. Rao, and B.V.R. Chowdari Nanoflake CoN as a high capacity anode for Li-ion batteries Solid State Ionics 180 2009 1061 1068
9. Q. Sun, and Z.W. Fu Vanadium nitride as a novel thin film anode material for rechargeable lithium batteries Electrochimica Acta 54 2008 403 409
10. G.X. Wang, Y. Chen, K. Konstantinov, M. Lindsay, H.K. Liu, and S.X. Dou Investigation of cobalt oxides as anode materials for Li-ion batteries Journal of Power Sources 109 2002 142 147
11. 2 as a novel negative electrode material for rechargeable lithium batteries Applied Surface Science 258 2012 3197 3201
12. 4 composite as anode materials for Li ion secondary batteries Journal of Power Sources 133 2004 252 259
13. X.Y. Yan, X.L. Tong, J. Wang, C.W. Gong, M.G. Zhang, and L.P. Liang Hydrothermal-synthesized NiO nanowall array for lithium ion batteries Journal of Alloys and Compounds 556 2013 56 61
14. M.J. Aragon, B. Leon, C.P. Vicente, and J.L. Tirado A new form of manganese carbonate for the negative electrode of lithium-ion batteries Journal of Power Sources 196 2011 2863 2866
15. S. Mirhashemihaghighi, B. Leon, C.P. Vicente, J.L. Tirado, R. Stoyanova, M. Yoncheva, E. Zhecheva, R.S. Puche, E.M. Arroyo, and J.R. Paz Lithium storage mechanisms and effect of partial cobalt substitution in manganese carbonate electrodes Inorganic Chemistry 51 2012 5554 5560
16. M.J. Aragon, B. Leon, C.P. Vicente, and J.L. Tirado On the use of transition metal oxysalts as conversion electrodes in lithium-ion batteries Journal of Power Sources 196 2011 2863 2866
17. 3 submicrocube/grapheme composites with high lithium storage capability Nano Energy 3 2013 276 282
18. 3-polypyrrole composite for lithium ion battery anodes Journal of Materials Chemistry A 1 2013 11200 11209
19. L.Y. Shao, J. Shu, R. Ma, M. Shui, L. Hou, K.Q. Wu, D.J. Wang, and Y.L. Ren Electrochemical characteristics and intercalation mechanism of manganese carbonate as anode material for lithium-ion batteries International Journal of Electrochemical Science 8 2013 1170 1180
20. L.Y. Shao, R. Ma, K.Q Wu, M. Shui, M.M. Lao, D.J. Wang, N.B. Long, Y.L. Ren, and J. Shu Metal carbonates as anode materials for lithium ion batteries Journal of Alloys and Compounds 581 2013 602 609
21. 8 nanobelts and their lithium storage behavior studied by in situ X-ray diffraction Journal of Materials Chemistry 22 2012 3035 3043
22. 3 photocatalyst for efficient removal of gaseous NO and HCHO under visible light irradiation Journal of Alloys and Compounds 509 2011 2044 2049
23. B. Malecka, A. Lacz, and A. Malecki TG/DTA/MS/IR study on decomposition of cadmium malonate hydrates in inert and oxidative atmosphere Journal of Analytical and Applied Prolysis 80 2007 126 133
24. 3-dye hybrid nanotubes based on trypan blue dye Colloids and Surfaces A: Physicochemical Engineering Aspects 374 2011 129 133
25. 3 as an anode material for lithium-ion batteries Journal of Power Sources 192 2009 627 635
26. C.M. Park, S. Yoon, S.I. Lee, and H.J. Sohn Enhanced electrochemical properties of nanostructured bismuth-based composites for rechargeable lithium batteries Journal of Power Sources 186 2009 206 210
27. S.B. Ni, X.H. Lv, T. Li, X.L. Yang, and L.L. Zhang The investigation of Ni(OH)2/Ni as anode for high performance Li-ion battery Journal of Materials Chemistry A1 2013 1535 1544
28. 2 in nonaqueous electrolyte Electrochemistry Communications 13 2011 269 271
29. D.D. Thorat, B.M. Tripathi, and D. Sathiyamoorthy Extraction of beryllium from Indian beryl by ammonium hydrofluoride Hydrometallurgy 109 2011 18 22
30. J.H. Yum, T. Akyol, M. Lei, D.A. Ferrer, T.W. Hudnall, M. Downer, C.W. Bielawski, G. Bersuker, J.C. Lee, and S.K. Banerjee A study of highly crystalline novel beryllium oxide film using atomic layer deposition Journal of Crystal Growth 334 2011 126 133
31. 4 as electrode material for lithium batteries Journal of Power Sources 182 2008 365 369
32. H. Jung, C.M. Park, and H.J. Sohn Bismuth sulfide and its carbon nanocomposite for rechargeable lithium-ion batteries Electrochimica Acta 56 2011 2135 2139