Baker’s yeast-MnO 2 composites as biosorbent for Malachite green: An ecofriendly approach for dye removal from aqueous solution

Abstract

In this study, baker’s yeast-MnO 2 composites, produced by direct oxidation of yeast with KMnO4 under acidic conditions, were used as biosorbent to remove the triphenylmethane dye Malachite green (MG) from an aqueous solution. Parameters that influence the adsorption process, such as pH, contact time, temperature, initial dye concentration and biosorbent dosage, were evaluated in batch experiments. The optimum removal of MG was found to be 86.7 mg g -1 at pH 10, 1.0 g L -1 of biomass dosage and 45°C. The kinetic data of dye removal was better described by the pseudo-second-order model. The adsorption process followed the Langmuir isotherm model and the maximum biosorption capacity was estimated to be 243.9 mg g -1 (at 25°C). The negative values of δG° and the positive value of δH° indicated that the MG biosorption onto yeast-MnO 2 composites is spontaneous and endothermic. Fourier transform infrared spectroscopy (FTIR) indicated that the nano-MnO 2 particles deposited on yeast-MnO 2 composites surface facilitated the MG adsorption. It was concluded that baker’s yeast-MnO 2 composites have potential for application as adsorbent for removal of MG from aqueous solution.