Project description:Bioelectrochemical phenol degradation

Project description:Degradation rates in bioelectrochemical systems

Project description:Bioelectrochemical toluene degradation in marine environments

Project description:Propionate accumulation is an important bottleneck for anaerobic degradation of organic matter. We hypothesized that propionate conversion by a novel coculture of Syntrophobacter fumaroxidans and Geobacter sulfurreducens can be an alternative strategy for propionate oxidation coupled to Fe(III) reduction. In this study, we successfully cocultured S. fumaroxidans and G. sulfurreducens on propionate and Fe(III). Proteomic analyses of this coculture provided insights into the underlying mechanisms of propionate metabolism pathway and interspecies electron transfer mechanism. Our study can be further useful in understanding syntrophic propionate degradation in bioelectrochemical and anaerobic digestion systems.

Project description:To get insights in the electrogenic anaerobic lifestyle of P. putida KT2440 cultivated in a bioelectrochemical system (BES), we employed whole genome microarray expression profile.

Project description:bioelectrochemical sensor

Project description:bioanode for the enhanced TBBPA degradation Raw sequence reads

Project description:Enhanced Microbial Degradation of Irradiated Cellulose Under Hyperalkaline Conditions

Project description:Bioelectrochemical systems Metagenome

Project description:BioElectrochemical Systems Technology