Effect of sol-gel process parameters on the properties of a Li1.3Ti1.7Al0.3(PO4)3 solid electrolyte
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- 作者:Seoung Soo Lee ; Jing Lee ; Yeon-Gil Jung…
- 关键词:Solid electrolyte ; LTAPO ; Sol ; gel process ; Li ; ion batteries
- 刊名:Journal of the Korean Physical Society
- 出版年:2016
- 出版时间:January 2016
- 年:2016
- 卷:68
- 期:1
- 页码:28-34
- 全文大小:1,670 KB
- 参考文献:[1]M. Kotobuki, Y. Isshiki, H. Munakata and K. Kanamura, Electrochim. Acta 55, 6892 (2010).CrossRef
[2]K. Hoshina, K. Dokko and K. Kanamura, J. Electrochem. Soc. 152, A2138 (2005).CrossRef
[3]K. Nagata and T. Nanno, J. Power Sources 174, 832 (2007).CrossRef
[4]H. Nakano, K. Dokko, M. Hara, Y. Isshiki and K. Kanamura, Ionics 14, 173 (2008).CrossRef
[5]A. S. Best, M. Forsyth and D. R. Macfarlane, Solid State Ionics 136-137, 339 (2000).CrossRef
[6]S. Wong, P. J. Newman, A. S. Best, K. M. Nairn, D. R. Macfarlane and M. Forsyth, J. Mater. Chem. 8, 2199 (1998).CrossRef
[7]M. Forsyth, S. Wong, K. M. Nairn, A. S. Best, P. J. Newman and D. R. Macfarlane, Solid State Ionics 124, 213 (1999).CrossRef
[8]A. S. Best, P. J. Newman, D. R. Macfarlane, K. M. Nairn, S. Wong and M. Forsyth, Solid State Ionics 126, 191 (1999).CrossRef
[9]X. X. Xu, Z. Y. Wen, X. L. Yang and L. D. Chen, J. Mater. Res. Bull. 43, 2334 (2008).CrossRef
[10]Y. J. Wang, Y. Pan and D. Kim, J. Power Sources 159, 690 (2006).CrossRef
[11]X. M. Wu, X. H. Li, Y. H. Zhang, M. F. Xu and Z. Q. He, Mater. Lett. 58, 1227 (2004).CrossRef
[12]M. Pang, R. Suzuki, M. Saito, K. Machida, H. Hanawa, Y. Nojiri and S. Tanase, Appl. Phys. Lett. 92, 04112-1 (2008).
[13]N. V. Kosova, E. T. Devyatkina, A. P. Stepanov and A. L. Buzlukov, J. Ionics 14, 303 (2008).CrossRef
[14]H. Aono, E. Sugimoto, Y. Sadaoka, N. Imanaka and G. Adach, J. Electrochem. Soc. 136, 590 (1989).CrossRef
[15]X. M. Wu, X. H. Li, S. W. Wang, Z. Wang, Y. H. Zhang, M. F. Xu and Z. Q. He, Thin Solid Films 425, 103 (2003).CrossRef ADS
[16]N. V. Kosova, E. T. Devyatkina, A. P. Stepanov and A. L. Buzlukov, Ionics 14, 303 (2008).CrossRef
[17]H. Aono, E. Sugimoto, Y. Sadaoka, N. Imanaka and G. Y. Adachi, Chem. Soc. Jpn. Chem. Lett. 19, 1825 (1990).CrossRef
[18]H. Aono, E. Sugimoto, Y. Sadaoka, N. Imanaka and G. Y. Adachi, J. Electrochem. Soc. 137, 1023 (1990).CrossRef
[19]H. Aono, E. Sugimoto, Y. Sadaoka, N. Imanaka and G. Y. Adachi, Solid State Ionics 47, 257 (1991).CrossRef
[20]J. Fu, Solid State Ionics 96, 195 (1997).CrossRef
[21]K. Takada, M. Tansho, I. Yanase, T. Inada, A. Kajiyama, M. Kouguchi, S. Kondo and M. Watanabe, Solid State Ionics 139, 241 (2001).CrossRef
[22]J. S. Thokchom and B. Kumar, Solid State Ionics 177, 727 (2006).CrossRef
[23]B. Kumar and L. G. Scanlon, J. Power Sources 52, 261 (1994).CrossRef ADS
[24]Y. J. Wang, Y. Pan and D. Kim, J. Power Sources 159, 690 (2006).CrossRef
[25]M. Morita, H. Noborio, N. Yoshimoto and M. Ishikawa, Solid State Ionics 177, 715 (2006).CrossRef
[26]M. Kotobuki, K. Hoshina, Y. Isshiki and K. Kanamura, Phosphorus Res. Bull. 24, 61 (2010).CrossRef
[27]M. Schroeder, S. Glatthaar and J. R. Binder, Solid State Ionics 201, 49 (2011).CrossRef
[28]Z. B. Xiao, S. Ghen and M. M. Guo, Trans. Nonferrous Met. Soc. China 21, 2454 (2011).CrossRef
[29]C. R. Mariappan, M. Gellert, C. Yada, F. Rosciano and B. Roling, Electrochem. Commun. 14, 25 (2012).CrossRef
[30]H. M. Rietveld, Acta Crystallogr. 22, 151 (1967).CrossRef
[31]B. D. Cullity, Elements of X-ray Diffraction, 3rd ed. (Prentice Hall, Upper Saddle River, NJ, 2001).MATH
[32]C. J. LeO, B. V. R Chowdan, C. V. Subb Rao and J. L. Souquet, Mat. Res. Bull. 37, 1419 (2002).CrossRef
[33]J. K. Kim, J. Scheers, G. C. Hwang, X. Zhao, S. Kang, P. Johansson, J. H. Ahn and P. Jacobsson, Scripta Materialia 69, 716 (2013).CrossRef - 作者单位:Seoung Soo Lee (1)
Jing Lee (1)
Yeon-Gil Jung (1)
Jae-Kwang Kim (2)
Youngsik Kim (3)
1. School of Materials Science and Engineering, Changwon National University, Changwon, 51140, Korea
2. Department of Solar & Energy Engineering, Cheongju University, Cheongju, 28496, Korea
3. Ulsan National Institute of Science and Technology, School of Energy and Chemical Engineering, Ulsan, 44919, Korea - 刊物主题:Physics, general; Theoretical, Mathematical and Computational Physics; Particle and Nuclear Physics;
- 出版者:Springer Netherlands
- ISSN:1976-8524
文摘
In this study, the influence of the processing parameters, such as the synthesis temperature and the lithium sources on the structure, particle size, morphology and ionic conductivity of Li1+x Ti2−x Al x (PO4)3 (LTAPO) was investigated. LiNO3, LiCl, and Li acetate were employed as lithium sources for investigating the effects of Li sources on the properties of the solid electrolyte. The morphologies and the particle size distribution of the prepared LTAPO samples were analyzed by using scanning electron microscopy (SEM) and a laser particle size analyzer. Their crystallinities were measured by means of X-ray diffraction (XRD). An increase in the synthesis temperature caused a pronounced growth in the particle size without any impurities, especially at temperatures above 700 °C. In addition, LiCl lithium sources showed the highest particles size. The effect of the processing parameters on the ionic conductivity of the prepared LTAPO was investigated by using electrochemical impedance spectroscopy (EIS). The ionic conductivities of the LTAPO prepared by using an optimized synthesis temperature with different lithium sources were 8.36 × 10−4, 5.73 × 10−4, and 7.18 × 10−4 S/cm for C-LTAPO, A-LTAPO, and N-LTAPO, respectively. The properties of the ceramic solid electrolyte were shown to be affected by the choice of the synthesis temperature and the Li source material.