In
the current study,
Aspergillus fumigatus
and
Pseudomonas putida
were co-cultured to obtain
self-immobilized mycelial pellets to evaluate the decolorization efficiency
of Congo red (CR). The obtained co-culture exhibited the highest decolorization
efficiency of 99.22% compared to monoculture of
A.
fumigatus
(89.20%) and
P. putida
(55.04%). The morphology and surface properties of the mycelial
pellets were characterized by SEM, FTIR, BET, and XPS. The adsorption
kinetics and isotherms were well described by pseudo-second-order
and Langmuir models. The findings revealed that the removal efficiency
of the mycelial pellet for CR was significantly influenced by physicochemical
parameters. Thermodynamic result showed that the biosorption process
was endothermic. The maximum adsorption capacity can be obtained from
the Langmuir model, which is 316.46 mg/g, it suggests that mycelial
pellet was an efficient biosorbent to remove CR from aqueous solution.
This study indicates that the mycelial pellet can develop a sustainable
approach to eliminate CR from the wastewater.
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