Peanut shell biochar immobilized Pseudomonas hibiscicola strain L1 to remove electroplating mixed-wastewater

“…Therefore, it has been frequently applied in the treatment of heavy metals and organic polluted wastewater [13]. The commonly adsorbed microorganisms mainly include Bacillus, Chlorella, Sulfate reducing bacteria, Beer yeast, Pseudomonas [14][15][16][17][18], etc. And the common immobilization carriers include biochar, sodium alginate, graphene oxide, polyvinyl alcohol, chitosan [19], etc.…”

Adsorption of Sb(III) from Solution by Immobilized Microcystis aeruginosa Microspheres Loaded with Magnetic Nano-Fe3O4

“…Therefore, it has been frequently applied in the treatment of heavy metals and organic polluted wastewater [13]. The commonly adsorbed microorganisms mainly include Bacillus, Chlorella, Sulfate reducing bacteria, Beer yeast, Pseudomonas [14][15][16][17][18], etc. And the common immobilization carriers include biochar, sodium alginate, graphene oxide, polyvinyl alcohol, chitosan [19], etc.…”

Adsorption of Sb(III) from Solution by Immobilized Microcystis aeruginosa Microspheres Loaded with Magnetic Nano-Fe3O4

“…It can be speculated that the SMFC sensors could not be used to identify toxicity of contaminants; instead it distinguishes between contaminants based on their roles in the cathodic reactions. However, it is unknown whether and how the SMFC sensors will generate voltage signals when they are employed to monitor other types of common contaminants, such as acid [21], alkali [22], salt [23], and non-oxidative heavy metal ions of which reduction reactions display the standard electrode potential (E Θ ) below zero, which is the E Θ value of 2H + + 2e À = H 2 (E Θ = 0), indicating that these ions could not be reduced in water (e. g. Ni 2 + and Zn 2 + ) [24]. To achieve application of the SMFC sensors, it is necessary to investigate into the sensing performance and clarify the sensing mechanism to different types of contaminants.…”

Distinct voltage signals of sediment microbial fuel cell sensors in sensing various contaminants

“…19,26 Sludge biochar immobilized Enterobacter sp., which removed 60.85% of COD. 27 It was discovered that the Pseudomonas hibiscicola L1 strain immobilized on peanut shell biochar (PBC) could efficiently remove both metals and organic matter from wastewater.…”

Synergistic effects (adsorption and biodegradation) of Streptomyces hydrogenans immobilization on nano-reed biochar for further application in upflow anaerobic sludge blanket