Microbial metabolism has the potential to alter the solubility of a broad range of priority
radionuclides, including uranium, other actinides and fission products. Of notable interest …

Adding organic electron donors to stimulate microbial reduction of highly soluble U (VI) to
less soluble U (IV) is a promising strategy for immobilizing uranium in contaminated …

Constructed wetland coupled with microbial fuel cells (CW-MFCs) are a promising
technology for sustainable wastewater treatment. However, the performance of CW-MFCs …

Schwertmannite (Sch) is an iron-hydroxysulfate mineral commonly found in acid mine
drainage contaminated environment. The transformation mechanism of Sch mediated by …

Cadmium (Cd) precipitation and dissolution in pore water is associated with dissolved
organic carbon (DOC)-induced reduction-oxidation of sulfur (S) under waterlogging and is …

Following the development of nuclear science and technology, uranium contamination has
been an ever increasing concern worldwide because of its potential for migration from the …

Silver nanoparticles (AgNPs) has been widely detected in the substrates of constructed
wetlands (CWs), posing threaten to pollutants removal efficiency of CWs. However, the way …

Electroactive microorganisms are pivotal players in mineral transformation within redox
interfaces characterized by pronounced oxygen and dissolved metal gradients. Yet, their …

Bioremediation is envisaged as an important way to abate groundwater contamination, but
the need for chemical addition and limited bioavailability of electron donors/acceptors or …

Acetate amendment at uranium contaminated sites in Rifle, CO. leads to an initial bloom of
Geobacter accompanied by the removal of U (VI) from the groundwater, followed by an …