Magnetic PSA-Fe3O4@C 3D mesoporous microsphere as anode for lithium ion batteries

Electrochimica Acta

Volumn 188, Issue , 2016, Pages 734-743

  Zhang, Wanli ^a   Hou, Xianhua ^a,b   Shen, Jiadong ^a   Hu, Shejun ^a,b   Ru, Qiang ^a,b   Lam, Kwok Ho ^c  

^a SOUTH CHINA NORMAL UNIVERSITY   (China)

^b Guangdong Eng Technol Res Center of Efficient Green Energy and Environmental Protection Materials   (China)

^c HONG KONG POLYTECHNIC UNIVERSITY   (Hong Kong)

Author keywords

3D mesoporous microspheres; Anode material; Lithium ion battery; PSA Fe3O4@C

Indexed keywords

ANODES; CARBONIZATION; CYCLIC VOLTAMMETRY; ELECTRIC BATTERIES; ELECTRODES; ELECTROLYTES; IONS; LITHIUM; LITHIUM ALLOYS; LITHIUM COMPOUNDS; MATERIALS HANDLING; MICROSPHERES; SECONDARY BATTERIES;

ANODE MATERIAL; CHARGING/DISCHARGING; CURRENT COLLECTOR; ELECTROCHEMICAL PERFORMANCE; ELECTRON-TRANSFER RESISTANCE; GALVANOSTATIC CHARGE/DISCHARGE; MESOPOROUS MICROSPHERES; THEORETICAL CAPACITY;

LITHIUM-ION BATTERIES;

EID: 84950269745     PISSN: 00134686     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.electacta.2015.10.023     Document Type: Article

References (63)

1. J.M. Tarascon, and M. Armand Issues and challenges facing rechargeable lithium batteries Nature 414 2001 67
2. J.B. Goodenough, and Y. Kim Challenges for rechargeable Li batteries Chem Mater. 22 2010 587
3. Y. Wang, and G. Cao Developments in nanostructured cathode materials for high-performance lithium-ion batteries Adv Mater. 20 2008 69
4. B. Dunn, H. Kamath, and J.M. Tarascon Electrical energy storage for the grid: a battery of choices Science 334 2011 35
5. X. Ji, K.T. Lee, and L.F. Nazar A highly ordered nanostructured carbon-sulphur cathode for lithium-sulphur batteries Nat Mater. 8 2009 6
6. M. Armand, and J.M. Tarascon Building better batteries Nature 451 2008 7
7. W.J. Zhang A review of the electrochemical performance of alloy anodes for lithium-ion batteries J Power Sources 196 2011 13
8. Y.G. Guo, J.S. Hu, and L.J. Wan Nanostructured Materials for Electrochemical Energy Conversion and Storage Devices Adv. Mater. 20 2008 2878
9. B. Dunn, H. Kamath, and J.M. Tarascon Electrical energy storage for the grid: a battery of choices Science 344 2001 928
10. P. Poizot, S. Laruelle, S. Grugeon, L. Dupont, and J.M. Tarascon Nano-sized transition-metal oxides as negative-electrode materials for lithium-ion batteries Nature 407 2000 496
11. 4@C nanocomposite as superior anode materials for Lithium-ion batteries Sci. Bull. 60 2015 884
12. 4 Nanomaterials in Lithium-Ion Batteries and Gas Sensors Advanced Functional Materials 15 2015 851
13. A.K. Mondal, D.W. Su, Y. Wang, S.Q. Chen, Q. Liu, and G.X. Wang Microwave hydrothermal synthesis of urchin-like NiO nanospheres as electrode materials for lithium-ion batteries and supercapacitors with enhanced electrochemical performances J. Alloys and Compounds 582 2014 522
14. 4 coaxial nanocables as anodes in lithium ion batteries J. power source 281 2015 301
15. 4/carbon core-shell nanotubes as promising anode materials for lithium-ion batteries J. Power source 241 2013 486
16. 4 micro-spheres and its application in lithium ion battery J. Alloys and Compounds 509 2011 305
17. 4-SWNT Electrodes: Binder-free and High-rate Li-ion Anode Adv. Mater 22 2010 145
18. M.G. Kim, and J. Cho Reversible and High-Capacity Nanostructured Electrode Materials for Li-Ion Batteries Adv. Funct. Mater 19 2009 1497
19. 4 Nanospindles as a Superior Anode Material for Lithium-Ion Batteries Adv. Funct. Mater 18 2008 3941
20. 4 nanospheres as superior anodes for Li-ion batteries RSC Advances 2 2012 2262
21. 4 nanowires and their application as high performance anode in lithium ion batteries Chem. Commun 45 2009 7360
22. B. Jang, M. Park, O.B. Chae, S. Park, Y. Kim, S.M. Oh, Y.Z. Piao, and T. Hyeon Direct Synthesis of Self-Assembled Ferrite/Carbon Hybrid Nanosheets for High Performance Lithium-Ion Battery Anodes J. Am. Chem. Soc 134 2012 15010
23. J.S. Zhou, H.H. Song, L.L. Ma, and X.H. Chen Magnetite/graphene nanosheet composites: interfacial interaction and its impact on the durable high-rate performance in lithium-ion batteries RSC Adv 1 2011 782
24. 4/C spheres as superior lithium storage materials J. Power Sources 197 2012 305
25. 4 Nanoparticles as a High-Rate Lithium Ion Battery Anode Material ACS NANO 5 2013 4459
26. 4 Lithium Battery Anodes with Long Cycle Life and High Rate Capability Nano Lett 13 2013 6136
27. Y.Z. Piao, H.S. Kim, and Y.E. Sung Facile scalable synthesis of magnetite nanocrystals embedded in carbon matrix as superior anode materials for lithium-ion batteries Chem. Commun 46 2010 118
28. Z.C. Yang, J.G. Shen, N. Jayaprakash, and L.A. Archer Synthesis of organic-inorganic hybrids by miniemulsion polymerization and their application for electrochemical energy storage Energy Environ. Sci 5 2012 7025
29. L.W. Su, Y. Jing, and Z. Zhou Li ion battery materials with core-shell nanostructures Nanoscale 3 2011 3967
30. 4-Reduced Graphene Oxide Composite Electrode as a Stable Anode for Lithium-ion Battery Electrochimica Acta 156 2015 147
31. 4@C as anode material for lithium ion battery Nano Energy 8 2014 126
32. 4@N-rich Carbon Core-Shell Microspheres as Anode for Lithium Ion Batteries with Enhanced Electrochemical Performance Electrochimica Acta 130 2014 679
33. 4 Anode Material with Improved Reversible Capacity and Cyclic Stability for Lithium Ion Batteries Chem. Mater 22 2010 5306
34. 4 nanoparticles grown on graphene as advanced electrode materials for supercapacitors J. Power Sources 245 2014 101
35. Y. S.B. Yang, L. Sun, Y. Chen, X.L. Hernandez, and K.M. llen Feng Porous Iron Oxide Ribbons Grown on Graphene for High-Performance Lithium Storage Scientific Reports 2 1 2012
36. H.T. Sun, X. Sun, T. Hu, M.P. Yu, F.Y. Lu, and J. Lian Graphene-Wrapped Mesoporous Cobalt Oxide Hollow Spheres Anode for High-Rate and Long-Life Lithium Ion Batterie J. Phys. Chem. C 118 2014 2263
37. 4 nanocrystals by wet-milling under atmospheric conditions Ceramics International 40 2014 7953
38. X.L. Liu, E.S.G. Choo, A.S. Ahmed, L.Y. Zhao, Y. Yang, R.V. Ramanujan, J.M. Xue, D.D. Fan, H.M. Fan, and J. Ding Magnetic nanoparticle-loaded polymer nanospheres as magnetic hyperthermia agents J. Mater. Chem. B 2 2014 120
39. A. Vu, Y.Q. Qian, and A. Stein Porous Electrode Materials for Lithium-Ion Batteries-How to Prepare Them and What Makes Them Special Adv. Energy Mater 2 2012 1056
40. Z.G. Jia, J.H. Liu, Q.Z. Wang, S.B. Li, Q. Qi, and R.S. Zhu Synthesis of 3D hierarchical porous iron oxides for adsorption of Congo red from dye wastewater J. Alloys and Compounds 622 2015 587
41. Y.L. Liu, C.M. Li, H.T. Zhang, X.L. Fan, Y. Liu, and Q.Y. Zhang One-pot hydrothermal synthesis of highly monodisperse water-dispersible hollow magnetic microspheres and construction of photonic crystals Chemical Engineering Journal 259 2015 779
42. 4@C Microcapsules Appl. Mater. Interfaces 3 2011 705
43. 4 Nanoparticles with 3D Laminated Structure as Superior Anode in Lithium Ion Batteries Chem.A European Journal 17 2011 661
44. 4-graphene composites for lithium ion batteries with significantly enhanced rate capability and cycling stability J. Power Sources 275 2015 769
45. H. Liu, G.X. Wang, and J.Z. Wang Magnetite/carbon core-shell nanorods as anode materials for lithium-ion batteries Electrochemistry Communications 10 2008 1879
46. 4 Lithium Battery Anodes with Long Cycle Life and High Rate Capability Nano Lett 13 2013 6136
47. 4 Phys. Chem. Chem. Phys 15 2013 2945
48. L.W. Su, Z. Zhou, and P.W. Shen Ni/C Hierarchical Nanostructures with Ni Nanoparticles Highly. Dispersed in N-Containing Carbon Nanosheets: Origin of Li Storage Capacity J. Phys. Chem. C 116 2012 23974
49. 3 submicrocube/graphene composites with high lithium storage capability Nano Energy 2 2013 276
50. 4@C and Fe@C Microspheres J. Mater. Chem. A 1 2013 15158
51. S. Laruelle, S. Grugeon, P. Poizot, M. Dolle, L. Dupont, and J.M. Tarascon On the Origin of the Extra Electrochemical Capacity Displayed by MO/Li Cells at Low Potential J. Electrochemical Society 149 2012 A627
52. 4@C as anode material for lithium-ion batteries J. Power Sources 248 2014 15
53. 4/C composite with high cycle stability as anode material for lithium-ion batteries J. power source 239 2013 466
54. 4 composites as anode materials for lithium-ion batteries J. power source 282 2015 257
55. 4 nanocrystals@graphene composites for energy storage devices J. Mater. Chem 21 2011 5069
56. I.T. Kim, A. Magasinski, K. Jacob, G. Yushin, and R. Tannenbaum Synthesis and electrochemical performance of reduced graphene oxide/maghemite composite anode for lithium ion batteries Carbon 52 2013 56
57. 4 @C core-shell nanorings and their enhanced electrochemical performance for lithium-ion batteries Nanoscale 5 2013 3627
58. 4/C composite microspheres as superior anode materials for lithium-ion batteries J. Power Sources 258 2014 305
59. 4 as an anode material for lithium ion batteries with excellent rate performance J. Power Sources 269 2014 795
60. 4 nanoparticles with enhanced performances as anode materials for lithium ion batteries Materials Research Bulletin 57 2014 127
61. 4/flake graphite composite for lithium ion battery J. Alloys Compounds 585 2014 398
62. J. Li, Q. Ru, S.J. Hu, D.W. Sun, B.B. Zhang, and X.H. Hou Spherical nano-SnSb/MCMB/carbon core-shell composite for high stability lithium ion battery anodes Electrochim. Acta 113 2013 505
63. 4 with inflorescence spicate architecture as anode materials for lithium-ion batteries with outstanding performance New J. Chem 39 2015 1943