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First principles and experimental studies of empty Si46 as anode materials for Li-ion batteries – CORRIGENDUM

Published online by Cambridge University Press:  24 April 2017

Abstract

Type
Corrigendum
Copyright
Copyright © Materials Research Society 2017 

doi: 10.1557/jmr.2016.408, Published by Materials Research Society with Cambridge University Press, 17 November 2016.

In Chan et al.1, references 3–17 had several errors and mislabels. The following list is the corrected references:

  1. 3. L.Y. Beaulieu, T.D. Hatchard, A. Bonakdarpour, M.D. Fleischauer, and J.R. Dahn: Reaction of Li with alloy thin films studied by in situ AFM. J. Electrochem. Soc. 150(11), A1457 (2003).

  2. 4. A. Timmons and J.R. Dahn: In situ optical observations of particle motion in alloy negative electrodes for Li-ion batteries. J. Electrochem. Soc. 153, A1206 (2006).

  3. 5. S.D. Beattie, D. Larcher, M. Morcrette, B. Simon, and J.-M. Tarascon: Si electrodes for Li-ion batteries − A new way to look at an old problem. J. Electrochem. Soc. 155(2), A158 (2008).

  4. 6. V.A. Sethuraman, M.J. Chon, M. Shimshak, V. Srinivasan, and P.R. Guduru: In situ measurements of stress evolution in silicon thin films during electrochemical lithiation and delithiation. J. Power Sources 195, 5062 (2010).

  5. 7. J.Y. Eom, J.W. Park, H.S. Kwon, and S. Rajendran: Electrochemical insertion of lithium into multiwalled carbon nanotube/silicon composites produced by ballmilling. J. Electrochem. Soc. 153(9), A1678 (2006).

  6. 8. Y. Zhang, X.G. Zhang, H.L. Zhang, Z.G. Zhao, F. Li, C. Liu, and H.M. Cheng: Composite anode material of silicon/graphite/carbon nanotubes for Li-ion batteries. Electrochim. Acta 51, 4994 (2006).

  7. 9. Y. Zhang, Z.G. Zhao, X.G. Zhang, H.L. Zhang, F. Li, C. Liu, and H.M. Cheng: Pyrolytic carbon-coated silicon/carbon nanotube composites: promising application for Li-ion batteries. Int. J. Nanomanuf. 2(1/2), 4 (2008).

  8. 10. J.H. Ryu, J.W. Kim, Y.-E. Sung, and S.M. Oh: Failure Modes of Silicon Powder Negative Electrode in Lithium Secondary Batteries. Electrochem. Solid-State Lett. 7(10), A306 (2004).

  9. 11. R.A. Huggins and W.D. Nix: Decrepitation model for capacity loss during cycling of alloys in rechargeable electrochemical systems. Ionics 6, 57 (2000).

  10. 12. J. Graetz, C.C. Ahn, R. Yazami, and B. Fultz: Highly reversible lithium storage in nanostructured silicon. Electrochem. Solid-State Lett. 6(9), A194 (2003).

  11. 13. T. Takamura, S. Ohara, M. Uehara, J. Suzuki, and K. Sekine: A vacuum deposited Si film having a Li extraction capacity over 2000 mAh/g with a long cycle life. J. Power Sources 129, 96 (2004).

  12. 14. H. Kim, B. Han, J. Choo, and J. Cho: Three-dimensional porous silicon particles for use in high-performance lithium secondary batteries. Angew. Chem. Int. Ed. 47, 1 (2008).

  13. 15. M. Green, E. Fielder, B. Scrosati, M. Wachtler, and J.S. Moreno: Structured silicon anodes for lithium battery applications. Electrochem. Solid-State Lett. 6(5), A75 (2003).

  14. 16. C.K. Chan, H. Peng, G. Liu, K. McIlwrath, X.F. Zhang, R.A. Huggins, and Y. Cui: High performance lithium battery anodes using silicon nanowires. Nat. Nanotechnol. 3, 31 (2008).

  15. 17. L.-F. Cui, R. Ruffo, C.K. Chan, H. Peng, and Y. Cui: Crystalline-amorphous core-shell silicon nanowires for high capacity and high current battery electrodes. Nano Lett 9, 491 (2009).

The authors regret these errors.

References

REFERENCE

Chan, K.S., Miller, M.A., Liang, W., Ellis-Terrell, C., Chan, and C.K.: First principles and experimental studies of empty Si46 as anode materials for Li-ion batteries. J Mater. Res. 31(23), 36573665 (2016). doi: 10.1557/jmr.2016.408.Google Scholar