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Immobilization of scandium and other chemical elements in systems with aquatic macrophyte
http://5bio5.blogspot.com/2016/02/today-published.html
Today, notification came from web, on publication of a new article:
Article
Russian Journal of General Chemistry;
December 2015, Volume 85, Issue 13, pp 2929-2932;
First online: 03 February 2016;
Immobilization of scandium and other chemical elements in systems with aquatic macrophyte
S. A. Ostroumov
, Monique E. Johnson
, J. F. Tyson
, B. Xing
Abstract
The possibility of immobilization of scandium and other chemical elements by biogenic materials derived from an aquatic macrophyte was explored. The concentrations of scandium and some other chemical elements were measured in the dried biomass (mortmass) of aquatic plants Myriophyllum aquaticum. In the experiments, the mortmass was incubated in aquatic systems where some chemical elements were added to the aquatic medium. After the incubation, the concentrations of these chemical elements in the mortmass were measured using inductively coupled plasma atomic emission spectroscopy (ICP-AES), also referred to as inductively coupled plasma optical emission spectrometry (ICP-OES). Increases in the concentrations of scandium and some other chemical elements (Ce, In, Se, Ru, Pd, U, and Zr) were observed in the biogenic material.
Keywords
scandium cerium palladium zirconium titanium europium ruthenium selenium indiumuranium macrophytes aquatic plants parrot feather Myriophyllum aquaticum inductively coupled plasma-optical emission spectrometry
Original Russian Text © S.A. Ostroumov, Monique E. Johnson, J.F. Tyson, B. Xing, 2015, published in Ekologicheskaya Khimiya, 2015, Vol. 24, No. 2, pp. 93–97.
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Concepts found in this article
Scandium
Aquatic Macrophyte
Aquatic Plant
Uranium
Ruthenium
Palladium
Zirconium
Related articles containing similar concepts (144 articles)
Extraction of scandium(III) by bis(diphenylphosphorylmethylcarbamoyl)alkanes
Turanov, N., et al. in Russian Journal of Inorganic Chemistry (2011)
A study of the chemistry of isomorphous substitution and characterization of Al-ZSM-5 and Sc-ZSM-5 synthesized in fluoride media
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Page of 6
Aquatic MacrophyteAquatic PlantUraniumRutheniumPalladiumZirconiumScandium+-
Supplementary Material (0)
References (17)
About this Article
Title
Immobilization of scandium and other chemical elements in systems with aquatic macrophyte Journal
Russian Journal of General Chemistry
Volume 85, Issue 13 , pp 2929-2932 Cover Date
2015-12 DOI
10.1134/S1070363215130083 Print ISSN
1070-3632 Online ISSN
1608-3350 Publisher
Pleiades Publishing Additional Links
Register for Journal Updates
Editorial Board
About This Journal
Manuscript Submission Topics
Chemistry/Food Science, general Keywords
scandium
cerium
palladium
zirconium
titanium
europium
ruthenium
selenium
indium
uranium
macrophytes
aquatic plants
parrot feather
Myriophyllum aquaticum
inductively coupled plasma-optical emission spectrometry Industry Sectors
Pharma
Chemical Manufacturing
Biotechnology
Electronics
IT & Software
Telecommunications
Consumer Packaged Goods
Aerospace
Oil, Gas & Geosciences
Engineering
Immobilization of scandium and other chemical elements in systems with aquatic macrophyte
http://5bio5.blogspot.com/2016/02/today-published.html
Today, notification came from web, on publication of a new article:
Article
Russian Journal of General Chemistry;
December 2015, Volume 85, Issue 13, pp 2929-2932;
First online: 03 February 2016;
Immobilization of scandium and other chemical elements in systems with aquatic macrophyte
S. A. Ostroumov
, Monique E. Johnson
, J. F. Tyson
, B. Xing
Abstract
The possibility of immobilization of scandium and other chemical elements by biogenic materials derived from an aquatic macrophyte was explored. The concentrations of scandium and some other chemical elements were measured in the dried biomass (mortmass) of aquatic plants Myriophyllum aquaticum. In the experiments, the mortmass was incubated in aquatic systems where some chemical elements were added to the aquatic medium. After the incubation, the concentrations of these chemical elements in the mortmass were measured using inductively coupled plasma atomic emission spectroscopy (ICP-AES), also referred to as inductively coupled plasma optical emission spectrometry (ICP-OES). Increases in the concentrations of scandium and some other chemical elements (Ce, In, Se, Ru, Pd, U, and Zr) were observed in the biogenic material.
Keywords
scandium cerium palladium zirconium titanium europium ruthenium selenium indiumuranium macrophytes aquatic plants parrot feather Myriophyllum aquaticum inductively coupled plasma-optical emission spectrometry
Original Russian Text © S.A. Ostroumov, Monique E. Johnson, J.F. Tyson, B. Xing, 2015, published in Ekologicheskaya Khimiya, 2015, Vol. 24, No. 2, pp. 93–97.
Look Inside
Article Metrics
Citations1
Reference tools
Export citation
Add to Papers
Other actions
Register for Journal Updates
About This Journal
Reprints and Permissions
Share
Share this content on Facebook Share this content on Twitter Share this content on LinkedIn
Related Content
Concepts found in this article
Scandium
Aquatic Macrophyte
Aquatic Plant
Uranium
Ruthenium
Palladium
Zirconium
Related articles containing similar concepts (144 articles)
Extraction of scandium(III) by bis(diphenylphosphorylmethylcarbamoyl)alkanes
Turanov, N., et al. in Russian Journal of Inorganic Chemistry (2011)
A study of the chemistry of isomorphous substitution and characterization of Al-ZSM-5 and Sc-ZSM-5 synthesized in fluoride media
Briden, C. · Williams, D., et al. in Inorganic Materials (1970)
Preparation and examination of the properties of complex scandium fluorides
Sokolova, Y., et al. in Russian Journal of Applied Chemistry (2011)
Corrosion of electrical alloys based on the Al-Mg-Se system
Ganiev, I., et al. in Russian Journal of Applied Chemistry (2010)
Structure and properties of magnesium alloys with scandium
Shalomeev, A., et al. in Metal Science and Heat Treatment (2008)
Page of 6
Aquatic MacrophyteAquatic PlantUraniumRutheniumPalladiumZirconiumScandium+-
Supplementary Material (0)
References (17)
About this Article
Title
Immobilization of scandium and other chemical elements in systems with aquatic macrophyte Journal
Russian Journal of General Chemistry
Volume 85, Issue 13 , pp 2929-2932 Cover Date
2015-12 DOI
10.1134/S1070363215130083 Print ISSN
1070-3632 Online ISSN
1608-3350 Publisher
Pleiades Publishing Additional Links
Register for Journal Updates
Editorial Board
About This Journal
Manuscript Submission Topics
Chemistry/Food Science, general Keywords
scandium
cerium
palladium
zirconium
titanium
europium
ruthenium
selenium
indium
uranium
macrophytes
aquatic plants
parrot feather
Myriophyllum aquaticum
inductively coupled plasma-optical emission spectrometry Industry Sectors
Pharma
Chemical Manufacturing
Biotechnology
Electronics
IT & Software
Telecommunications
Consumer Packaged Goods
Aerospace
Oil, Gas & Geosciences
Engineering
