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Bouby, M., Finck, N., Geckeis, H. (2012) Flow field-flow fractionation (FlFFF) coupled to sensitive detection techniques: a way to examine radionuclide interactions with nanoparticles. Mineralogical Magazine, 76 (7) 2709-2721 doi:10.1180/minmag.2012.076.7.06

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Reference TypeJournal (article/letter/editorial)
TitleFlow field-flow fractionation (FlFFF) coupled to sensitive detection techniques: a way to examine radionuclide interactions with nanoparticles
JournalMineralogical Magazine
AuthorsBouby, M.Author
Finck, N.Author
Geckeis, H.Author
Year2012 (December)Volume76
Page(s)2709-2721Issue7
PublisherMineralogical Society
DOIdoi:10.1180/minmag.2012.076.7.06Search in ResearchGate
Mindat Ref. ID244294Long-form Identifiermindat:1:5:244294:9
GUID2c373dc0-13c3-4d11-b975-e50ffd6b6da5
Full ReferenceBouby, M., Finck, N., Geckeis, H. (2012) Flow field-flow fractionation (FlFFF) coupled to sensitive detection techniques: a way to examine radionuclide interactions with nanoparticles. Mineralogical Magazine, 76 (7) 2709-2721 doi:10.1180/minmag.2012.076.7.06
Plain TextBouby, M., Finck, N., Geckeis, H. (2012) Flow field-flow fractionation (FlFFF) coupled to sensitive detection techniques: a way to examine radionuclide interactions with nanoparticles. Mineralogical Magazine, 76 (7) 2709-2721 doi:10.1180/minmag.2012.076.7.06
Abstract/NotesAbstractThe capabilities of the asymmetrical flow field-flow fractionation (AsFlFFF) technique coupled with inductively coupled plasma mass spectrometry and UV–Vis spectrophotometry in the characterization of synthetic and natural colloidal samples are demonstrated in two different systems. The first system is a sol of hectorite which was co-precipitated in the presence of Lu. The results show that hectorite nanoparticles can be mobilized from a bulk sample and that they still contain the dopant Lu, which is homogeneously incorporated into the hectorite crystal structure. The second system is a natural groundwater from the Gorleben site on the northern German plain, which is being tentatively explored to assess its suitability as a nuclear waste repository. Colloidal matter heterogeneity is evident in this system. Alkaline-earth elements are mainly found as ionic species. Rare earth elements (REEs) and actinides are distributed in two main colloidal fractions: the heavier REEs and U are concentrated in the <4 nm fraction corresponding to the size range of organic colloidal particles, whereas lighter REEs and Th are concentrated in colloidal particles between 4 and 18 nm in size that are both organic and inorganic in nature. Similar results are reported for another sample from the same site, collected ∼2 km from the first one, demonstrating the homogeneity of the aquifer system and/or a possible colloid migration pathway. The extent of the reversibility of colloid–radionuclide interactions remains to be evaluated.

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Finck, N., Bouby, M., Dardenne, K., Geckeis, H. (2012) Characterization of Eu(III) co-precipitated with and adsorbed on hectorite: from macroscopic crystallites to nanoparticles. Mineralogical Magazine, 76 (7) 2723-2740 doi:10.1180/minmag.2012.076.7.07
Bouby, M., Geckeis, H., Geyer, F. W. (2008) Application of asymmetric flow field-flow fractionation (AsFlFFF) coupled to inductively coupled plasma mass spectrometry (ICPMS) to the quantitative characterization of natural colloids and synthetic nanoparticles. Analytical and Bioanalytical Chemistry, 392 (7) 1447-1457 doi:10.1007/s00216-008-2422-0
Geckeis, H, Ngo Manh, Th, Bouby, M, Kim, J.I (2003) Aquatic colloids relevant to radionuclide migration: characterization by size fractionation and ICP-mass spectrometric detection. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 217. 101-108 doi:10.1016/s0927-7757(02)00564-2
Wimuktiwan, Panida, Shiowatana, Juwadee, Siripinyanond, Atitaya (2015) Investigation of silver nanoparticles and plasma protein association using flow field-flow fractionation coupled with inductively coupled plasma mass spectrometry (FlFFF-ICP-MS). Journal of Analytical Atomic Spectrometry, 30 (1). 245-253 doi:10.1039/c4ja00225c
Brookshaw, D. R., Pattrick, R. A. D., Lloyd, J. R., Vaughan, D. J. (2012) Microbial effects on mineral–radionuclide interactions and radionuclide solid-phase capture processes. Mineralogical Magazine, 76 (3) 777-806 doi:10.1180/minmag.2012.076.3.25
Thang, Ngo Manh, Knopp, R., Geckeis, H., Kim, J. I., Beck, H. P. (2000) Detection of Nanocolloids with Flow-Field Flow Fractionation and Laser-Induced Breakdown Detection. Analytical Chemistry, 72 (1). 1-5 doi:10.1021/ac991016e
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Bouby, Muriel, Geckeis, Horst, Lützenkirchen, Johannes, Mihai, Silvia, Schäfer, Thorsten (2011) Interaction of bentonite colloids with Cs, Eu, Th and U in presence of humic acid: A flow field-flow fractionation study. Geochimica et Cosmochimica Acta, 75 (13) 3866-3880 doi:10.1016/j.gca.2011.04.015
Flinn, Derek (1973) Two Flow Charts of Orthoscopic U-Stage Techniques. Mineralogical Magazine, 39 (303) 368-370 doi:10.1180/minmag.1973.039.303.16
 
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