Highly Selective Li+ Ion Transport by Porous Molybdenum-Oxide Keplerate-Type Nanocapsules Integrated in a Supported Liquid Membrane

Gilles A, Mihai S, Nasr G, Mahon E, Garai S, Müller A, Barboiu M (2013)
Israel Journal Of Chemistry 53(1-2): 102-107.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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Autor*in
Gilles, Arnaud; Mihai, Simona; Nasr, Gihane; Mahon, Eugene; Garai, Somenath; Müller, AchimUniBi ; Barboiu, Mihail
Abstract / Bemerkung
Porous Keplerate-type molybdenum-oxide nanocapsules - encapsulated into cationic surfactants act as transporting systems for alkali cations through supported liquid membranes. The transport is based on the ability of the nanocapsules containing water molecules inside their cavities to attract and release the cations. This results in specific nanoscaled translocation pathways, based on corresponding dynamic diffusional domains within the liquid bulk membrane phase, due to the self-assembly of the capsules. Li+ cations are preferentially extracted and transported, thus allowing separation from Na+ and K+ cations, which are not transported to the receiving phase.
Stichworte
structure-property relationship; self-assembly; membranes; nanodevices; supramolecular materials
Erscheinungsjahr
2013
Zeitschriftentitel
Israel Journal Of Chemistry
Band
53
Ausgabe
1-2
Seite(n)
102-107
ISSN
0021-2148
Page URI
https://pub.uni-bielefeld.de/record/2578739

Zitieren

Gilles A, Mihai S, Nasr G, et al. Highly Selective Li+ Ion Transport by Porous Molybdenum-Oxide Keplerate-Type Nanocapsules Integrated in a Supported Liquid Membrane. Israel Journal Of Chemistry. 2013;53(1-2):102-107.
Gilles, A., Mihai, S., Nasr, G., Mahon, E., Garai, S., Müller, A., & Barboiu, M. (2013). Highly Selective Li+ Ion Transport by Porous Molybdenum-Oxide Keplerate-Type Nanocapsules Integrated in a Supported Liquid Membrane. Israel Journal Of Chemistry, 53(1-2), 102-107. doi:10.1002/ijch.201300001
Gilles, Arnaud, Mihai, Simona, Nasr, Gihane, Mahon, Eugene, Garai, Somenath, Müller, Achim, and Barboiu, Mihail. 2013. “Highly Selective Li+ Ion Transport by Porous Molybdenum-Oxide Keplerate-Type Nanocapsules Integrated in a Supported Liquid Membrane”. Israel Journal Of Chemistry 53 (1-2): 102-107.
Gilles, A., Mihai, S., Nasr, G., Mahon, E., Garai, S., Müller, A., and Barboiu, M. (2013). Highly Selective Li+ Ion Transport by Porous Molybdenum-Oxide Keplerate-Type Nanocapsules Integrated in a Supported Liquid Membrane. Israel Journal Of Chemistry 53, 102-107.
Gilles, A., et al., 2013. Highly Selective Li+ Ion Transport by Porous Molybdenum-Oxide Keplerate-Type Nanocapsules Integrated in a Supported Liquid Membrane. Israel Journal Of Chemistry, 53(1-2), p 102-107.
A. Gilles, et al., “Highly Selective Li+ Ion Transport by Porous Molybdenum-Oxide Keplerate-Type Nanocapsules Integrated in a Supported Liquid Membrane”, Israel Journal Of Chemistry, vol. 53, 2013, pp. 102-107.
Gilles, A., Mihai, S., Nasr, G., Mahon, E., Garai, S., Müller, A., Barboiu, M.: Highly Selective Li+ Ion Transport by Porous Molybdenum-Oxide Keplerate-Type Nanocapsules Integrated in a Supported Liquid Membrane. Israel Journal Of Chemistry. 53, 102-107 (2013).
Gilles, Arnaud, Mihai, Simona, Nasr, Gihane, Mahon, Eugene, Garai, Somenath, Müller, Achim, and Barboiu, Mihail. “Highly Selective Li+ Ion Transport by Porous Molybdenum-Oxide Keplerate-Type Nanocapsules Integrated in a Supported Liquid Membrane”. Israel Journal Of Chemistry 53.1-2 (2013): 102-107.
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