Self-standing, binder-free electrospun Co3O4/carbon nanofiber composites for non-aqueous Li-air batteries

Electrochimica Acta

Volumn 182, Issue , 2015, Pages 289-296

  Song, Myeong Jun ^a   Kim, Il To ^a   Kim, Young Bok ^a   Shin, Moo Whan ^a  

^a Yonsei University   (South Korea)

Author keywords

Carbon nanofiber; Cobalt oxide; Li air battery; Self standing; Zeolite imidazolate frameworks

Indexed keywords

BINDERS; CARBON NANOFIBERS; CATALYST ACTIVITY; CATHODES; COBALT COMPOUNDS; CROSSLINKING; ELECTRIC DISCHARGES; HEAT TREATMENT; METAL FOAMS; METALS; ZEOLITES;

COBALT OXIDES; ENERGY STORAGE AND CONVERSIONS; IMIDAZOLATE; INITIAL DISCHARGE CAPACITIES; NANO-FIBER STRUCTURE; NANOFIBER COMPOSITES; POST THERMAL TREATMENT; SELF STANDINGS;

LITHIUM-AIR BATTERIES;

EID: 84942581438     PISSN: 00134686     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.electacta.2015.09.100     Document Type: Article

References (46)

1. 2 Air Electrode Modified with Pd for Rechargeability in Lithium-Air Battery J. Electrochem. Soc. 158 2011 A1483 A1489
2. S.T. J.S. Lee, R. Kim, N.S. Cao, M. Choi, K.T. Liu, and J. Cho Lee Metal-air batteries with high energy density: Li-air versus Zn-air Adv. Energy Mater. 1 2011 34 50
3. F. Cheng, and J. Chen Metal-air batteries: from oxygen reduction electrochemistry to cathode catalysts Chem. Soc. Rev. 41 2012 2172 2192
4. X. M.A. Rahman, and C. Wen Wang High energy density metal-air batteries: A review J. Electrochem. Soc. 160 2013 A1759 A1771
5. N. Imanishi, and O. Yamamoto Rechargeable lithium-air batteries: Characteristics and prospects Materials Today. 17 2014 24 30
6. 2 Cell J. Electrochem. Soc. 160 2013 A1112 A1117
7. S. Y. Shao, J. Park, J.G. Xiao, Y. Zhang, and J. Liu Wang Electrocatalysts for nonaqueous lithium-air batteries: status, challenges, and perspective ACS Catal 2 2012 844 857
8. G. Girishkumar, B. McCloskey, A.C. Luntz, S. Swanson, and W. Wilcke Lithium-Air Battery: Promise and Challenges J. Phys. Chem. Lett. 1 2010 2193 2203
9. 2 batteries: electrolytes, catalysts, and anodes Energy Environ. Sci. 6 2013 1125 1141
10. 2 Batteries Adv. Energy Mater. 2 2012 801 815
11. A. Kraytsberg, and Y. Ein-Eli Review on Li-air Batteries-Opportunities, Limitations and Perspective J. Power Sources 196 2011 886 893
12. 2 battery J.Power Sources. 195 2010 1235 1240
13. 2 and Li-S batteries with high energy storage Nat. Mater. 11 2012 19 29
14. 4 composite for air electrode of lithium-air battery Nanoscale Res. Lett. 7 2012 28 31
15. B.D. McCloskey, D.S. Bethune, R.M. Shelby, G. Girishkumar, and A.C. Luntz Solvents' Critical Role in Nonaqueous Lithium-Oxygen Battery Electrochemistry J. Phys. Chem. Lett. 2 2011 1161 1166
16. 4 nanoparticles for rechargeable Li/air batteries Nanoscale Res. Lett. 7 2012 47 52
17. 2 electrode for lithium batteries J. Am. Chem. Soc. 128 2006 1390 1393
18. 2 cathode for rechargeable lithium batteries: The effect of a catalyst J. Power Sources 174 2007 1177 1182
19. H. Cheng, and K. Scott Carbon-supported manganese oxide nanocatalysts for rechargeable lithium-air batteries J.Power Sources. 195 2010 1370 1374
20. 2 battery with alkyl carbonate electrolytes J. Am. Chem. Soc. 133 2011 8040 8047
21. X. Yang, and Y. Xia The effect of oxygen pressures on the electrochemical profile of lithium/oxygen battery J. Solid State Electrochem. 14 2010 109 114
22. P.R. Kumar, N. Khan, S. Vivekanandhan, N. Satyanarayana, A.K. Mohanty, and M. Misra Nanofibers: effective generation by electrospinning and their applications J. Nanosci. Nanotechnol. 12 2012 1 25
23. A. Magistris, P. Mustarelli, F. Parazzoli, E. Quartarone, P. Piaggio, and A. Bottino Structure, porosity and conductivity of PVdF films for polymer electrolytes J. Power Sources 97 2001 657 660
24. 4 cathode of Li-ion batteries J.Power Sources. 109 2002 422 426
25. J.J. Xu, Z.L. Wang, D. Xu, L.L. Zhang, and X.B. Zhang Tailoring deposition and morphology of discharge products towards high-rate and long-life lithium-oxygen batteries Nat. Commun. 4 2013 2438 2449
26. 2 Batteries Adv. Funct. Mater. 22 2012 3699 3705
27. 4 nanoparticles decorated carbon nanofiber mat as binder-free air-cathode for high performance rechargeable zinc-air batteries Nanoscale 7 2015 1830 1838
28. Y. Lu, Z. Xu, H.A. Gasteiger, S. Chen, K. Hamad-Schifferli, and S.H. Yang Platinum-gold nanoparticles: A highly active bifunctional electrocatalyst for rechargeable lithium-air batteries J. Am. Chem. Soc. 132 2010 12170 12171
29. 4 nanocomposite as an efficient bifunctional catalyst for lithium-air batteries J. Mater. Chem. A 2 2014 7188 7196
30. 4 composite for enhanced lithium air batteries Solid State Ionics 268 2014 216 221
31. A. Zahoor, M. Christy, Y.J. Hwang, and K.S. Nahm Lithium Air Battery: Alternate Energy Resource for the Future J. Electrochem. Sci. Technol. 3 2012 14 23
32. R. Padbury, and X. Zhang Lithium-oxygen batteries-limiting factors that affect performance J. Power Sources 196 2011 4436 4444
33. J. Christensen, P. Albertus, R.S. Sanchez-Carrera, T. Lohmann, B. Kozinsky, R. Liedtke, J. Ahmed, and A. Kojic A critical review of Li/air batteries J. Electrochem. Soc. 159 2012 R1 R30
34. G.E. Kostakis, S.P. Perlepes, V.A. Blatov, D.M. Proserpio, and A.K. Powell High-nuclearity Cobalt Coordination Clusters: Synthetic, Topological and Magnetic Aspects Coord. Chem. Rev. 256 2012 1246 1278
35. H. Liu, Y. Liu, Y. Li, Z. Tang, and H. Jiang Metal-organic framework supported gold nanoparticles as a highly active heterogeneous catalyst for aerobic oxidation of alcohols J. Phys. Chem. C 114 2010 13362 13369
36. S. Wang, Y. Hou, S. Lin, and X. Wang Water oxidation electrocatalysis by a zeolitic imidazolate framework Nanoscale 6 2014 9930 9934
37. 2 under Mild Reaction Conditions Angew. Chem. 126 2014 1052 1056
38. S.K. Nataraj, K.S. Yang, and T.M. Aminabhavi Polyacrylonitrile-based nanofibers-A state-of-the-art review Prog. Polym. Sci. 37 2012 487 513
39. J. Zakzeski, A. Dębczak, P. Bruijnincx, and B. Weckhuysen Catalytic oxidation of aromatic oxygenates by the heterogeneous catalyst Co-ZIF-9 Appl. Catal. A. 394 2011 79 85
40. A.C. Ferrari, and J. Robertson Interpretation of Raman spectra of disordered and amorphous carbon Physical Review B 61 2000 14095 14107
41. F. Su, C.K. Poh, J.S. Chen, G. Xu, D. Wang, Q. Li, J. Lin, and X.W. Lou Nitrogen-containing microporous carbon nanospheres with improved capacitive properties Energy Environ. Sci. 4 2011 717 724
42. S.S. X. Ren, D.T. Zhang, and J. Read Tran Oxygen reduction reaction catalyst on lithium/air battery discharge performance J. Mater. Chem. 21 2011 10118 10125
43. H. Cheng, and K. Scott Nano-structured gas diffusion electrode-A high power and stable cathode material for rechargeable Li-air batteries J. Power Sources 235 2013 226 233
44. 2 batteries using carbonate based electrolytes Electrochim. Acta 90 2013 63 70
45. 2 batteries Nano Lett. 9 2013 4190 4197
46. G. Kumar, M. Christy, H. Jang, and K.S. Nahm Cobaltite oxide nanosheets anchored graphene nanocomposite as an efficient oxygen reduction reaction (ORR) catalyst for the application of lithium-air batteries J. Power Sources 288 2015 451 460