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Keyword [Reductive dissolution]
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1. The Effect Of Calcination On The Stability Of FeAsO 4 And The Distribution Of Arsenic In The Distribution Of FeAsO 4
2. Mobilization Of Arsenic During Reductive Dissolution And Transformation Of Arsenic Contained Iron (Hydr)Oxides
3. Transformation Of Arsenate Contained Iron Oxides And Mobilization Of Arsenate During Reductive And Oxidative Dissolution
4. Mobilization Of Different Species Of As(?)during Reductive Dissolution And Catalytic Transformation Of Fe Minerals
5. Variation And Its Driving Mechanisms Of Groundwater Arsenic Induced By Intensive Groundwater Extraction
6. Labile Organic Matter And Terminal Electron Acceptors Affect Greenhouse Gas Emissions,Iron Reduction And Phosporous Mobilization From Soils
7. Mobilization And Transformation Of Arsenic In Different As-Fe Minerals During Sufidization Process
8. Phosphate Sorption and Reductive Dissolution in Aluminum/Iron-Hydroxide Co-Precipitates
9. Insights on the reactivity of environmental iron-containing nanoparticles
10. Reactivity of iron oxyhydroxide nanoparticles: Effects of physical variables
11. Electron transfer and coordination reactions between birnessite, manganite, and oxygen-donor aliphatic compounds
12. Investigating the Susceptibility of Jarosite Minerals to Reductive Dissolution by a Dissimilatory Metal Reducing Bacterium (Shewanella putrefaciens CN32)
13. Bacterial and geochemical controls on the reductive dissolution and secondary mineralization of iron (hydr)oxides
14. Reductive dissolution of manganese(IV) oxides and precipitation of iron(III): Implications for redox processes in an alluvial aquifer affected by acid mine drainage
15. Reductive dissolution of iron oxide minerals by Shewanella putrefaciens BrY
16. Characteristics of fulvic and humic acids isolated from various sources and their role in iron and aluminum mobilization
17. Insights into the mechanisms of iron reductive dissolution in vadose zone soils and implications for landfill activities: Predicting the potential for groundwater pollution
18. Tartaric Acid/Citric Acid And Ultraviolet Light Synergistically Trigger The Reductive Dissolution Of SCH-As(?) And The Release Of Adsorbed As
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