Bioelectrochemically enhanced degradation of bisphenol S: mechanistic insights from stable isotope-assisted investigations
Rui Hou, Lin Gan, Fengyi Guan, Yi Wang, Jibing Li, Shungui Zhou, Yong Yuan
Abstract
from the EABs and indicated their ability in the assimilation of BPS or its metabolites. Collectively, network analysis showed that the collaboration between electroactive microbes and BPS assimilators played pivotal roles the improvement in bioelectrochemically enhanced BPS degradation.
Topics & Concepts
Degradation (telecommunications)ChemistryStable-isotope probingBisphenol SStable isotope ratioHydrolysisBisphenol APollutantEnvironmental chemistryBiofilmMicrobial biodegradationCombinatorial chemistryOrganic chemistryMicroorganismBiologyBacteriaQuantum mechanicsGeneticsPhysicsEpoxyTelecommunicationsComputer scienceMicrobial Fuel Cells and BioremediationMicrobial Community Ecology and Physiologybioluminescence and chemiluminescence research