Study on Synthesis and Properties of Spinel Structure Li1+xMn2-xO4 for Lithium Ion-Sieve Precursor

Shi Tao Song; Su Xia Wu; You Shun Peng; Xue Fang Zheng; Qi Lian

doi:10.4028/www.scientific.net/AMM.437.560

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 437Study on Synthesis and Properties of Spinel...

Study on Synthesis and Properties of Spinel Structure Li_1+xMn_2-xO₄ for Lithium Ion-Sieve Precursor

Abstract:

Spinel structure Li_1+xMn_2-xO₄materials for lithium ion-sieve precursor were synthesized by high temperature solid state method and their adsorption properties were improved by adjusting the molar ratio of lithium to manganese. The structure, morphology and adsorption performance of the synthetic samples were characterized by XRD, SEM, and lithium ion adsorption experiments. The influences of pH value and adsorption time on adsorption capacity were discussed. The results showed that the Li_1.3Mn_1.7O₄ material had the largest adsorption capacity and it reached up to 24.06 mg·g^-1 when the pH value was 12 and the adsorption time was 10 h.

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Periodical:

Applied Mechanics and Materials (Volume 437)

Pages:

560-563

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.437.560

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Online since:

October 2013

Authors:

Shi Tao Song, Su Xia Wu*, You Shun Peng, Xue Fang Zheng, Qi Lian

Keywords:

Adsorption Performance, Extracting Lithium, Lithium Manganate, Synthesis

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References

[1] J.H. Lei, J.H. Shang, L.P. Guo, et al, Lithium manganese oxide ion-sieve and its research progress, Inorganic Salt Industry 18 (2002) 45-51.

Google Scholar

[2] J.S. Yuan, X.Z. Meng, Z.Y. Ji, Study on the synthesis of the spinel li- Seive adsorbent precursor, Journal of Salt and Chemical Industry 34 (2005) 6-9.

Google Scholar

[3] J.H. Lei, Q.X. Gong, J.H. Shang, et al, Study on synthesis and porperties of normal spinel structure LiMn2O4 for lithium ion-sieve precursor, Journal of Wuhan University(Natural Science Edition) 47 (2001) 707-711.

Google Scholar

[4] J.S. Yuan, H. Li, X.Z. Meng, Study on adsorption capability of ion-sieve type lithium adsorbent, Inorganic Salt Industry 38 (2006) 27-29.

Google Scholar

[5] Y.D. Li, L.P. Liu, X.G. Wang, Lattice distortion and FTIR frequency shift of element doped spinel LiM0. 2Mn1. 8O4(M=Mg, Cd), China Powder Science and Technology 15 (2009) 56-59.

Google Scholar