Valorization of Algal Biomass to Synthesize Heterogeneous Gc3n4-Biochar Photocatalyst for the Treatment of Industrial Wastewater Using Photocatalysis-Persulfate Oxidation Process.

Textile wastewater, heavily contaminated with organic dyes, is generating severe problems to environment and human health. The implementation of gC3N4 with biochar (gC3N4-BC) for the treatment of textile wastewater is less effective due to the limited adsorption capacity and slower degradation kinetics. To tackle these problems, peroxydisulfate (PDS) is integrated with gC3N4-BC photocatalyst to enhance the process efficiency and kinetics. The synthesized gC3N4-BC-5 composite shows higher separation of charge carriers, light absorbance, and lower energy bandgap (2.62 eV). The results of photocatalytic degradation and rate constant are enhanced up to 99.9 % and 0.041 min-1 using gC3N4-BC-5 with PDS as compared to without PDS (96.8 % and 0.028 min-1, respectively). The radicals (SO4-•,O2-•, and OH•) are responsible to improve the degradation process efficiency and kinetics. The reusability of optimized sample indicates that gC3N4-BC-5 is stable and effective up to five cycles. The gC3N4-BC-5 composite attains highest adsorption (70.9 %) when compared to BC (62.3 %) and pure gC3N4 (27.1 %). The well-fitted models of adsorption (Pseudo-Second-Order and Freundlich) confirm the favorable, chemical, and multilayered adsorption process. The coupling of gC3N4-BC-5 with PDS is effective, efficient, and stable process to enhance the kinetics and degradation of textile wastewater.