Recent Progress in Structural and Electrochemical Properties in Composite Based LiFePO4 Batteries

Recent Progress in Structural and Electrochemical Properties in Composite Based LiFePO4 Batteries

Lubna TabassamUzma TabassamUmair Manzoor 

Department of Physics, COMSATS Institute of Information Technology, Park Road, Chak Shahzad campus, Islamabad, Pakistan

Alamoudi Water Research Chair, King Saud University, Riyadh. Kingdom of Saudi Arabia

Corresponding Author Email: 
lubna.tabassam@comsats.edu.pk; uzma.tabassam@comsats.edu.pk
Page: 
193-205
|
DOI: 
https://doi.org/10.14447/jnmes.v18i4.348
Received: 
2 September 2015
| |
Accepted: 
8 October 2015
| | Citation
Abstract: 

This review describes some recent developments in the composite doped cathode materials such as LiCoO2, LiNiO2, LiMn2O4, and LiMnO2 with focus on LiFePO4. Olivine LiFePO4have attracted considerable attention since last decade because of its promising properties as a cathode material in Li ion based batteries (LIBs), that is, it offers high theoretical capacity, environmental friendliness, and less toxicity. The electrochemical and structural characterization of this system will be discussed in more detail as compared with its other counterpart.

Keywords: 

cathode material, olivine structure, electrochemical and structural properties

1. Introduction
2. Experimentals
3. Result and Discussion
4. Conclusion
Acknowledgements

This Project was funded by the National Plan for Science, Tech-nology and Innovation (MAARIFAH), King Abdulaziz City for Science and Technology, Kingdom of Saudi Arabia, Award no. (2623).

  References

[1] Yao, J. et al., Journal of Solid State Electrochemistry, 11, 177 (2007).

[2] Hu, C. et al., Int. J. Electrochem. Sci., 5, 1457 (2010).

[3] Pollet, B.G., I. Staffell and J.L. Shang, Electrochimica Acta, 84, 235 (2012).

[4] Wakihara M., Materials Science and Engineering, R: Reports, 33, 109 (2001).

[5] Armand M. and J.-M. Tarascon, Nature, 451, 652 (2008).

[6] Padhi A.K., K. Nanjundaswamy and J. Goodenough, Journal of the electrochemical society, 144, 1188 (1997).

[7] Fan, X. et al., Nano letters, 15, 7650 (2015).

[8] Kou J., et al., ACS applied materials & interfaces, 7, 17910 (2015).

[9] Tabassam L. et al., Journal of Power Sources, 213, 287 (2012).

[10]Fergus, J.W., Journal of Power Sources, 195, 939 (2010).

[11]Belov D. and M.-H. Yang, Solid State Ionics, 179, 1816 (2008).

[12]Belov D. and M.-H. Yang, Journal of Solid State Electrochem-istry, 12, 885 (2008).

[13]Doh C.-H. et al., Journal of Power Sources, 175, 881 (2008).

[14]Van Schalkwijk W. and B. Scrosati, Advances in lithium-ion batteries. 2002: Springer Science & Business Media.

[15]Antolini E., Licoo, Solid State Ionics, 170, 159 (2004).

[16]Liu H., Y. Yang and J. Zhang, Journal of Power Sources, 173, 556 (2007).

[17]Donders M. et al., Journal of the Electrochemical Society, 160, A3066 (2013).

[18]Giorgetti M. et al., Inorganic chemistry, 45, 2750 (2006).

[19]Whittingham M.S., Chemical reviews, 104, 4271 (2004).

[20]Takahashi Y., N. Kijima and J. Akimoto, Journal of Solid State Chemistry, 178, 3667 (2005).

[21]Akimoto J., Y. Gotoh and Y. Oosawa, Journal of Solid State Chemistry, 141, 298 (1998).

[22]A. Di Cicco, ed. Gnxas: A software package for advanced ex-afs multiple-scattering calculations and data-analysis. ed. M.M. A. Filipponi, et al., 2009, TASK Publishing, Gdansk, Poland. : Camerino, Italy.

[23]Amatucci G., J. Tarascon and L. Klein, Solid State Ionics, 83, 167 (1996).

[24]Amatucci G., J. Tarascon and L. Klein, Journal of the electro-chemical society, 143, 1114 (1996).

[25]Wang Y. and G. Cao, Advanced Materials, 20, 2251 (2008).

[26]Zou M., et al., Chemistry of materials, 15, 4699 (2003).

[27]Zou, M., et al., Materials research bulletin, 40, 708 (2005).

[28]Cho J., Y.J. Kim and B. Park, Journal of the electrochemical society, 148, A1110 (2001).

[29]Tang W. et al., Energy & Environmental Science, 6, 2093 (2013).

[30]Lu Z. et al., Journal of the electrochemical society, 149, A778 (2002).

[31]Wakihara M. and O. Yamamoto, Lithium ion batteries: Funda-mentals and performance. 2008: John Wiley & Sons.

[32]Gražulis S. et al., Nucleic acids research, 40, D420 (2012).

[33]Sathiyamoorthi R. et al., Journal of Power Sources, 171, 922 (2007).

[34]Chowdari B., G.S. Rao and S. Chow, Solid State Ionics, 140, 55 (2001).

[35]Jang Y.I. et al., Electrochemical and solid-state letters, 1, 13 (1998).

[36]Chiang, Y.M. et al., Electrochemical and solid-state letters, 2, 107 (1999).

[37]Kim, T.-J. et al., Journal of Power Sources, 154, 268 (2006).

[38]Tarascon J.-M. and M. Armand, Nature, 414, 359 (2001).

[39]Thackeray M. et al., Materials research bulletin, 18, 461 (1983).

[40]Takami N. et al., Journal of the electrochemical society, 156, A128 (2009).

[41]Matsushima T., Journal of Power Sources, 189, 847 (2009).

[42]Sinha N.N. and N. Munichandraiah, Journal of the Indian Insti-tute of Science, 89, 381 (2009).

[43]Liu Q., et al., Journal of Power Sources, 173, 538 (2007).

[44]Thackeray M. et al., Journal of Power Sources, 81, 60 (1999).

[45]Deng B., H. Nakamura and M. Yoshio, Journal of Power Sources, 180, 864 (2008).

[46]Liu Y. et al., Rare Metals, 28, 322 (2009).

[47]Belharouak I. et al., Journal of the electrochemical society, 159, A1165 (2012).

[48]Tateishi K. et al., Acta Crystallographica Section E: Structure Reports Online, 60, 18 (2004).

[49]Arora P., B. Popov and R.E. White, Journal of the electrochem-ical society, 145, 807 (1998).

[50]Wang C. et al., Journal of Power Sources, 189, 607 (2009).

[51]Amarilla J. et al., Journal of Power Sources, 191, 591 (2009).

[52]Zhao S. et al., Journal of Alloys and Compounds, 474, 473 (2009).

[53]Ohzuku T., S. Takeda and M. Iwanaga, Journal of Power Sources, 81, 90 (1999).

[54]Patoux S. et al., Journal of Power Sources, 189, 344 (2009).

[55]Shaju K.M. and P.G. Bruce, Dalton Transactions, 40, 5471 (2008).

[56]Liu J. and A. Manthiram, Chemistry of materials, 21, 1695 (2009).

[57]Yi T.-F. et al., Ionics, 15, 779 (2009).

[58]Li Z., D. Zhang and F. Yang, Journal of materials science, 44, 2435 (2009).

[59]Armand M. et al., Nature materials, 8, 120 (2009).

[60]Kopec M. et al., Electrochimica Acta, 54, 5500 (2009).

[61]Hua N. et al., Journal of Alloys and Compounds, 503, 204 (2010).

[62]Li H. et al., Advanced Materials, 21, 4593 (2009).

[63]Jugović D. et al., Solid State Ionics, 179, 415 (2008).

[64]Bilecka I. et al., Journal of Materials Chemistry, 21, 5881 (2011).

[65]Delmas C. et al., Nature materials, 7, 665 (2008).

[66]Liu H. et al., Journal of Solid State Electrochemistry, 12, 1017 (2008).

[67]Lu Y. et al., Journal of Power Sources, 194, 786 (2009).

[68]Losey A. et al., The Canadian Mineralogist, 42, 1105 (2004).

[69]Tang P. and N. Holzwarth, Physical Review B, 68, 165107 (2003).

[70]Xu J. et al., Journal of applied electrochemistry, 40, 575 (2010).

[71]Wang Y. et al., Journal of Alloys and Compounds, 492, 675 ( 2010).

[72]Yang, L. et al., Journal of Solid State Electrochemistry, 13, 1541 (2009).

[73]Shin H.C. et al., Electrochimica Acta, 53, 7946 (2008).

[74]Liu J. et al., Electrochimica Acta, 54, 5656 (2009).

[75]Sun C. et al., Journal of Power Sources, 193, 841 (2009).

[76]Wagemaker M. et al., Chemistry of materials, 20, 6313 (2008).

[77]Yu Heng S. and L. Xing Quan, Chinese Chemical Letters, 17, 2006.

[78]Cho Y.-D., G.T.-K. Fey and H.-M. Kao, Journal of Solid State Electrochemistry,12, 815 (2008).

[79]Wu Z. et al., Journal of Power Sources, 195, 2888 (2010).

[80]Herle P.S. et al., Nature materials, 3, 147 (2004).

[81]Ge Y. et al., Electrochimica Acta, 55, 5886 (2010).

[82]Li, C. et al., Nano Research, 1, 242 (2008).

[83]Deb A. et al., Journal of applied physics, 97, 113523 (2005).

[84]Goriparti S. et al., Journal of Power Sources, 257, 421 (2014).

[85]Deb A. et al., Electrochimica Acta, 50, 5200 (2005).

[86]Moretti A. et al., Journal of the electrochemical society, 160, A940 (2013).

[87]Xu B. et al., Materials Science and Engineering, 73, 51 (2012).

[88]Jabbour L. et al., Cellulose, 20, 1523 (2013).

[89]Filipponi A., A. Di Cicco and C.R. Natoli, Physical Review B, 52, 15122 (1995).

[90]Filipponi A. and A. Di Cicco, Physical Review B, 52, 15135 (1995).

[91]Wilke M. et al., American Mineralogist, 86, 714 (2001).

[92]Farges, F., Physics and Chemistry of Minerals, 28, 619 (2001).