Study of an Inorganic Ion Exchanger Al1.25Fe0.75(PO4)2

Jin He Jiang

doi:10.4028/www.scientific.net/AMR.490-495.3553

Paper Titles

Self-Propagating High-Temperature Spraying Synthesis of Ferrites Hollow Microspheres
p.3536

Study on Activated Carbon Prepared from Coking Fly Ash with KOH Activation
p.3540

Study on Productive Technology of Greensand Mold and Thick-Walled Small Piece for Nodular Cast Iron
p.3545

Study on Dyeing Technology Affecting the Dye-Uptake of Bamboo Pieces
p.3549

Study of an Inorganic Ion Exchanger Al_1.25Fe_0.75(PO₄)₂
p.3553

Study on Impacting Performance of Bamboo-Plastic Composite
p.3557

Semiconductor Assembly and Test Production Line Simulation Technology
p.3562

Study on Photometric Performance Attenuation Law of Retroreflective Materials for Road Traffic
p.3568

Study on HVOF Sprayed Nickel Coated MoS₂ Coatings
p.3574

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 490-495Study of an Inorganic Ion Exchanger...

Study of an Inorganic Ion Exchanger Al_1.25Fe_0.75(PO₄)₂

Abstract:

New complex inorganic ion exchanger Al1.25Fe0.75(PO4)2 is synthesized. Chemical composition, structure and some related properties and complex mechanism of this ion exchanger are investigated by electron microscopic, X-ray diffraction and chemical methods. The ion exchange behavior of Al1.25Fe0.75(PO4)2 has been studied in detail. Results of column test indicated, that the exchange capacity obtained from tests for Li+ in 0.1mol /L HNO3 solution is 7.0mmol/g.

You might also be interested in these eBooks

Mechatronics and Intelligent Materials II

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 490-495)

Pages:

3553-3556

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.490-495.3553

Citation:

Cite this paper

Online since:

March 2012

Authors:

Jin He Jiang

Keywords:

Al_1.25Fe_0.75(PO₄)₂, Exchange Capacity, Ion Exchanger

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] J.H. Jang, D.Q. Dong, G. H. Cheng, J.Q. Liu, J. Li: Li+ extraction/insertion reaction with Mg2Mn0. 5Ti0. 5O4 inverse spinel in the aqueous phase, J. Rare Metal. 2007, 26(6), 121.

Google Scholar

[2] Y.F. Liu, Q. Feng, Kenta Ool: The synthesis and ion-exchange property of Li+ memorized spinel LiAlMnO4, J. Ion Exchange and Adsorption. 1995, 11(3), 216.

Google Scholar

[3] Y.F. Liu, Q. Feng, Kenta Ool: Li extraction/insertion reaction with LiAlMnO4 and LiFeMnO4 spinels in the aqueous phase, J. Journal of Colloid and Interface Science. 1994, 163(1), 130.

DOI: 10.1006/jcis.1994.1088

Google Scholar

[4] J.H. Jiang, D.Q. Dong, J.L. Li: Synthesis of Li4Mn0. 5Ti0. 5O4 and its selectivity to Li+ exchange, J. Chinese Journal of Applied Chemistry. 2006, 23(4), 357.

Google Scholar