AI Article Synopsis
- The study explored the decolorization of safranin using Fissidens species in a controlled lab setting, optimizing factors such as pH, temperature, dye concentration, biosorbent dosage, and contact time.
- Maximum decolorization efficiency reached 95% under optimal conditions (pH 6, 20 mg/L dye concentration, 200 mg/L biosorbent, 30°C, and 2 days contact) and desorption studies indicated 0.1 N NaOH as the most effective desorbing agent.
- The research validated Fissidens species as an effective biosorbent for safranin removal, promoting further applications in dye treatment and environmental management, supported by various analytical techniques and in silico
Article Abstract
Decolorization of safranin was investigated using Fissidens species in a batch system under optimized conditions. The decolorization efficiency was improved by optimizing the conditions such as initial pH (3-9), temperature (25-45 °C), initial dye concentration (10-50 mg/L), biosorbent dosage (100-500 mg/L) and contact time (1-6 days). Maximum decolorization (95%) was recorded at initial pH of 6 with dye concentration of 20 mg/L, biosorbent dosage of 200 mg/L at 30 °C and contact time of 2 days. Desorption studies revealed 0.1 N NaOH as the best desorbing agent with 92% recovery on third day. Experimental data well fitted to Langmuir isotherm and Pseudo-second order kinetic model. The negative values of ΔG and positive value of ΔS and ΔH indicates that the reaction is spontaneous, favorable and endothermic. The biosorbent - dye interactions were confirmed using UV-Vis, FT-IR, XRD and FE-SEM with EDX studies. The detoxified nature of the dye degraded metabolites was confirmed by the significant growth of green gram. The color fastness and color strength of the fabrics dyed using Fissidens species treated dye solution were compared with the tap water dyed fabrics which indicated the reuse potential of treated water in textile sector. The decolorization efficiency was further confirmed through in silico approach, where safranin well docked with the active sites of Photosystem II protein D1 of the Fissidens species. Thus, the present study proves that Fissidens species is a promising biosorbent for safranin decolorization and will lay a platform for the control and management of environmental pollution.
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| http://dx.doi.org/10.1016/j.envres.2022.113108 | DOI Listing |
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