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Characterizing Reactive Iron Mineral Coatings in Redox Transition Zones
Han Hua
, Xin Yin
, James A. Dyer
, Richard Landis
,
Lisa Axe
Chemical and Materials Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
5
Scopus citations
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Dive into the research topics of 'Characterizing Reactive Iron Mineral Coatings in Redox Transition Zones'. Together they form a unique fingerprint.
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Earth and Planetary Sciences
Aquitard
100%
Ferrihydrite
100%
Field Emission
100%
Goethite
100%
Greigite
100%
Industrial Site
100%
Lepidocrocite
100%
Mackinawite
100%
Mineralogy
100%
Natural Attenuation
100%
Pyrrhotite
100%
Scanning Electron Microscopy
100%
X Ray Diffraction
100%
X-Ray Fluorescence Spectroscopy
100%
Keyphrases
Aquifer
50%
Aquitard
25%
Attenuation Processes
25%
Biogeochemical Processes
25%
Clay Lens
50%
Contaminant Attenuation
25%
Energy Dispersive X-ray Analysis
25%
Ferrihydrite
25%
Field Emission Scanning Electron Microscopy (FE-SEM)
25%
Fluorescence Emission
25%
Framboidal Pyrite
25%
Goethite
25%
Greigite
25%
Industrial Site
25%
Iron Carbonate
25%
Iron Oxide
75%
Iron Sulfide
50%
Iron(III)
25%
Lepidocrocite
25%
Mackinawite
25%
Mineral Coating
50%
Mineral Magnetite
25%
Mineralogy
25%
Natural Attenuation
25%
Poorly Crystalline
25%
Pyrite
25%
Pyrrhotite
25%
Reactive Iron Mineral Coatings
100%
Reactive Minerals
25%
Redox Transition Zone
100%
Surface Coating
25%
Transition Zone
50%
X Ray Diffraction
25%
X-ray Field
25%
X-ray Fluorescence
25%