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There are a total of 7 record(s) matching your query.
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The nanophase iron mineral(s) in Mars soil
Author(s): Banin, A.; Ben-Shlomo, T.; Margulies, L.; Blake, D. F.; Mancinelli, R. L.; Gehring, A. U.
Abstract: A series of surface-modified clays containing nanophase (np) iron oxide/oxyhydroxides of extremely small particle sizes, with total iron contents as high as found in Mars soil, were prepared by iron deposition on the clay ...
NASA Center: Ames Research Center Publication Year: 1993
Added to NTRS: 2006-08-02
Document ID: 20040089787
pH profile of the adsorption of nucleotides onto montmorillonite. II - Adsorption and desorption of 5-prime-AMP in iron-calcium montmorillonite systems
Author(s): Banin, A.; Lawless, J. G.; Mazzurco, J.; Church, F. M.; Margulies, L.; Orenberg, J. B.
Abstract: The interaction of 5-prime-AMP with montmorillonite saturated with various ratios of two metals found ubiquitously on the surface of earth, that is, iron and calcium, is investigated. Adsorption and desorption of the ...
NASA Center: Ames Research Center Publication Year: 1985
Added to NTRS: 2004-11-03
Accession Number: 85A36095; Document ID: 19850053944
Iron-montmorillonite - A spectral analog of Martian soil
Author(s): Banin, A.; Margulies, L.; Chen, Y.
Abstract: Spectral data for smectite clays, particularly for montmorillonite, which contain various adsorbed ions and are measured in the UV, VIS, and NIR ranges are analyzed and compared with Martian soil and dust spectra. It is ...
NASA Center: Ames Research Center Publication Year: 1985
Added to NTRS: 2004-11-03
Accession Number: 85A30060; Document ID: 19850047909
Smectites versus palagonites in Mars soil: Evidence from simulations of Viking biology labeled release experiments
Author(s): Banin, A.; Margulies, L.
Abstract: The results of an experimental comparison between palagonites and a smectite (montmorillonite) in the simulation of the Viking Biology Labeled Release (LR) experiment and conclusions regarding their suitability as MarSAMs ...
NASA Center: Ames Research Center Publication Year: 1983
Added to NTRS: 2004-11-03
Accession Number: 83N27947; Document ID: 19830019676; Report Number: A-9320, NAS 1.15:84361, NASA-TM-84361
The nanophase iron mineral(s) in Mars soil
Author(s): Banin, A.; Ben-Shlomo, T.; Margulies, L.; Blake, D. F.; Gehring, A. U.
Abstract: Iron-enriched smectites have been suggested as important mineral compounds of the Martian soil. They were shown to comply with the chemical analysis of the Martian soil, to simulate many of the findings of the Viking Labeled ...
NASA Center: Ames Research Center Publication Year: 1992
Added to NTRS: 2004-11-03
Accession Number: 92N28990; Document ID: 19920019747
Simulation of Viking biology experiments suggests smectites not palagonites, as martian soil analogues
Author(s): Banin, A.; Margulies, L.
Abstract: An experimental comparison of palagonites and a smectite (montmorillonite) was performed in a simulation of the Viking Biology Labelled Release (LR) experiment in order to judge which mineral is a better Mars soil analog ...
NASA Center: Ames Research Center Publication Year: 1983
Added to NTRS: 2004-11-03
Accession Number: 84A10655; Document ID: 19840027868
The nanosphere iron mineral(s) in Mars soil
Author(s): Banin, A.; Ben-Shlomo, T.; Margulies, L.; Blake, D. F.; Mancinelli, R. L.; Gehring, A. U.
Abstract: A series of surface-modified clays containing nanophase (np) iron/oxyhydroxides of extremely small particle sizes, with total iron contents as high as found in Mars soil, were prepared by iron deposition on the clay surface ...
NASA Center: Ames Research Center Publication Year: 1993
Added to NTRS: 2004-11-03
Accession Number: 95A76052; Document ID: 19950044453
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