Add to ORKGStimulation of U(VI) bioreduction is becoming an attractive in-situ method for stabilizing U in contaminated sediments. After reduction of U(VI) is completed in sediments, how stable is bioreduced U(IV) upon exposure to oxidizing groundwaters
Uraninite (UO2) is the most desirable end product of in situ bioreduction because of its low solubil...
For the in situ reductive immobilization of U to be an acceptable strategy for the removal of that e...
AbstractThe stimulation of microbial U(VI) reduction to precipitate insoluble U(IV) has been propose...
Bioreduction of U in contaminated sediments is an attractive strategy because of its low cost, and b...
This research focuses on the conditions and rates under which uranium will be remobilized after it h...
Bioreduction-based strategies for remediating uranium (U)-contaminated sediments face the challenge ...
In aerobic aquifers typical of many Department of Energy (DOE) legacy waste sites, uranium is presen...
The biological reduction and precipitation of uranium in groundwater has the potential to prevent ur...
Uranium mining and processing for nuclear weapons and fuel have left thousands of sites with toxic l...
Remediation of uranium (U) contaminated sediments through in-situ stimulation of bioreduction to ins...
The biological reduction and precipitation of uranium in groundwater has the potential to prevent ur...
The research in FY04 was focused in five specific topics: (1) U(VI) sorption on microbially and abio...
In this study, we report the results of in situ U(VI) bioreduction experiments at the Integrated Fie...
The overall objective of this research is to understand the mechanisms for maintenance of bio-reduce...
It has generally been assumed that the bioreduction of hexavalent uranium in groundwater systems wil...
Uraninite (UO2) is the most desirable end product of in situ bioreduction because of its low solubil...
For the in situ reductive immobilization of U to be an acceptable strategy for the removal of that e...
AbstractThe stimulation of microbial U(VI) reduction to precipitate insoluble U(IV) has been propose...
Bioreduction of U in contaminated sediments is an attractive strategy because of its low cost, and b...
This research focuses on the conditions and rates under which uranium will be remobilized after it h...
Bioreduction-based strategies for remediating uranium (U)-contaminated sediments face the challenge ...
In aerobic aquifers typical of many Department of Energy (DOE) legacy waste sites, uranium is presen...
The biological reduction and precipitation of uranium in groundwater has the potential to prevent ur...
Uranium mining and processing for nuclear weapons and fuel have left thousands of sites with toxic l...
Remediation of uranium (U) contaminated sediments through in-situ stimulation of bioreduction to ins...
The biological reduction and precipitation of uranium in groundwater has the potential to prevent ur...
The research in FY04 was focused in five specific topics: (1) U(VI) sorption on microbially and abio...
In this study, we report the results of in situ U(VI) bioreduction experiments at the Integrated Fie...
The overall objective of this research is to understand the mechanisms for maintenance of bio-reduce...
It has generally been assumed that the bioreduction of hexavalent uranium in groundwater systems wil...
Uraninite (UO2) is the most desirable end product of in situ bioreduction because of its low solubil...
For the in situ reductive immobilization of U to be an acceptable strategy for the removal of that e...
AbstractThe stimulation of microbial U(VI) reduction to precipitate insoluble U(IV) has been propose...