Selective sorption of Ce3+ over La3+ ions on biogenic manganese oxides

K. Sasaki; T. Kaseyama; T. Hirajima

doi:10.4028/www.scientific.net/AMR.71-73.633

Selective sorption of Ce³⁺ over La³⁺ ions on biogenic manganese oxides

K. Sasaki, T. Kaseyama, T. Hirajima

Earth Resources Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

6 Citations (Scopus)

Abstract

Unique properties of biogenic Mn oxides were applied to a fundamental study of separation and recovery of rare earth elements. Selective sorption of Ce³⁺ over La³⁺ ions was achieved at neutral pH values using biogenic Mn oxides produced by Paraconiothyrium sp. WL-2 strain. The selective coefficient for Ce3+ (α_Ce) was much greater with biogenic and synthetic Mn oxides than those for La³⁺ (α_La). Ce³⁺ ions were oxidized to CeO₂ by Mn(III, IV) in Mn oxides under anaerobic conditions resulting in the release of Mn²⁺ ions, while La³⁺ ions were sorbed without a redox reaction. With an increase in coexisting La³⁺ ions, sorption of Ce³⁺ on both Mn oxides was significantly suppressed, especially with synthetic Mn oxides. The edges of the structure are competitive sites because of fewer numbers of vacant sites in synthetic Mn oxide layers. The preferential sorption on the edge sites of Mn oxides is in the order of La³⁺ > Ce³⁺. These phenomena can be expanded to separation and recovery of other rare earth elements from natural and anthropogenic sources.

Original language	English
Title of host publication	Biohydrometallurgy 2009
Subtitle of host publication	A Meeting Point between Microbial Ecology, Metal Recovery Processes and Environmental Remediation - Selected, peer rev. papers 18th Int. Biohydrometallurgy Symp., IBS 2009
Pages	633-636
Number of pages	4
DOIs	https://doi.org/10.4028/www.scientific.net/AMR.71-73.633
Publication status	Published - 2009
Event	18th International Biohydrometallurgy Symposium, IBS 2009 - Bariloche, Argentina Duration: Sept 13 2009 → Sept 17 2009

Publication series

Name	Advanced Materials Research
Volume	71-73
ISSN (Print)	1022-6680

Other

Other	18th International Biohydrometallurgy Symposium, IBS 2009
Country/Territory	Argentina
City	Bariloche
Period	9/13/09 → 9/17/09

All Science Journal Classification (ASJC) codes

Engineering(all)

Access to Document

10.4028/www.scientific.net/AMR.71-73.633

Cite this

Sasaki, K., Kaseyama, T., & Hirajima, T. (2009). Selective sorption of Ce³⁺ over La³⁺ ions on biogenic manganese oxides. In Biohydrometallurgy 2009: A Meeting Point between Microbial Ecology, Metal Recovery Processes and Environmental Remediation - Selected, peer rev. papers 18th Int. Biohydrometallurgy Symp., IBS 2009 (pp. 633-636). (Advanced Materials Research; Vol. 71-73). https://doi.org/10.4028/www.scientific.net/AMR.71-73.633

Selective sorption of Ce³⁺ over La³⁺ ions on biogenic manganese oxides. / Sasaki, K.; Kaseyama, T.; Hirajima, T.
Biohydrometallurgy 2009: A Meeting Point between Microbial Ecology, Metal Recovery Processes and Environmental Remediation - Selected, peer rev. papers 18th Int. Biohydrometallurgy Symp., IBS 2009. 2009. p. 633-636 (Advanced Materials Research; Vol. 71-73).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Sasaki, K, Kaseyama, T & Hirajima, T 2009, Selective sorption of Ce³⁺ over La³⁺ ions on biogenic manganese oxides. in Biohydrometallurgy 2009: A Meeting Point between Microbial Ecology, Metal Recovery Processes and Environmental Remediation - Selected, peer rev. papers 18th Int. Biohydrometallurgy Symp., IBS 2009. Advanced Materials Research, vol. 71-73, pp. 633-636, 18th International Biohydrometallurgy Symposium, IBS 2009, Bariloche, Argentina, 9/13/09. https://doi.org/10.4028/www.scientific.net/AMR.71-73.633

Sasaki K, Kaseyama T, Hirajima T. Selective sorption of Ce³⁺ over La³⁺ ions on biogenic manganese oxides. In Biohydrometallurgy 2009: A Meeting Point between Microbial Ecology, Metal Recovery Processes and Environmental Remediation - Selected, peer rev. papers 18th Int. Biohydrometallurgy Symp., IBS 2009. 2009. p. 633-636. (Advanced Materials Research). doi: 10.4028/www.scientific.net/AMR.71-73.633

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abstract = "Unique properties of biogenic Mn oxides were applied to a fundamental study of separation and recovery of rare earth elements. Selective sorption of Ce3+ over La3+ ions was achieved at neutral pH values using biogenic Mn oxides produced by Paraconiothyrium sp. WL-2 strain. The selective coefficient for Ce3+ (αCe) was much greater with biogenic and synthetic Mn oxides than those for La3+ (αLa). Ce3+ ions were oxidized to CeO2 by Mn(III, IV) in Mn oxides under anaerobic conditions resulting in the release of Mn2+ ions, while La3+ ions were sorbed without a redox reaction. With an increase in coexisting La3+ ions, sorption of Ce3+ on both Mn oxides was significantly suppressed, especially with synthetic Mn oxides. The edges of the structure are competitive sites because of fewer numbers of vacant sites in synthetic Mn oxide layers. The preferential sorption on the edge sites of Mn oxides is in the order of La3+ > Ce3+. These phenomena can be expanded to separation and recovery of other rare earth elements from natural and anthropogenic sources.",

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AB - Unique properties of biogenic Mn oxides were applied to a fundamental study of separation and recovery of rare earth elements. Selective sorption of Ce3+ over La3+ ions was achieved at neutral pH values using biogenic Mn oxides produced by Paraconiothyrium sp. WL-2 strain. The selective coefficient for Ce3+ (αCe) was much greater with biogenic and synthetic Mn oxides than those for La3+ (αLa). Ce3+ ions were oxidized to CeO2 by Mn(III, IV) in Mn oxides under anaerobic conditions resulting in the release of Mn2+ ions, while La3+ ions were sorbed without a redox reaction. With an increase in coexisting La3+ ions, sorption of Ce3+ on both Mn oxides was significantly suppressed, especially with synthetic Mn oxides. The edges of the structure are competitive sites because of fewer numbers of vacant sites in synthetic Mn oxide layers. The preferential sorption on the edge sites of Mn oxides is in the order of La3+ > Ce3+. These phenomena can be expanded to separation and recovery of other rare earth elements from natural and anthropogenic sources.

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