Baker’s yeast-MnO2 composites as biosorbent for Malachite green: An ecofriendly approach for dye removal from aqueous solution

Bruna Assis Paim Dos Santos,Evandro Luiz Dall'Oglio,Leonardo Gomes De Vasconcelos,Ketinny Camargo De Castro,Gabriele De Menezes Pereira,Aline Silva Cossolin,Hélen Cristina Oliveira Dos Reis,Evanleide Rodrigues Da Silva,Paulo Teixeira De Sousa Junior,Eduardo Beraldo De Morais

doi:10.4136/ambi-agua.2254

Bruna Assis Paim Dos Santos, Evandro Luiz Dall'Oglio + Show 8 more

Open Access

https://doi.org/10.4136/ambi-agua.2254

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Abstract

In this study, baker’s yeast-MnO2 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 ∆G° and the positive value of ∆H° indicated that the MG biosorption onto yeast-MnO2 composites is spontaneous and endothermic. Fourier transform infrared spectroscopy (FTIR) indicated that the nano-MnO2 particles deposited on yeast-MnO2 composites surface facilitated the MG adsorption. It was concluded that baker’s yeast-MnO2 composites have potential for application as adsorbent for removal of MG from aqueous solution.

Highlights

Most dyes are synthetic chemicals widely used in textile, rubber, tanneries, paper, plastic, and paint industries for coloring purposes
This study evaluated the capability of baker’s yeast-MnO2 composites to remove Malachite green (MG) from an aqueous solution under different experimental conditions, such as initial pH, contact time, temperature, dye concentration and biosorbent dosage
The electrostatic interactions between the negatively charged biosorbent and the positively charged MG dye cations lead to dye removal from the solution

Summary

Introduction

Most dyes are synthetic chemicals widely used in textile, rubber, tanneries, paper, plastic, and paint industries for coloring purposes. Biosorption technology utilizing different types of biomasses is an efficient and economic process to remove pollutants from wastewater. This is attributed to easy availability of some biosorbents, simplicity of design and operation and ability to treat wastewater with high concentration of pollutants (Castro et al, 2017). Biosorbents including agroindustrial by-products (Akar et al, 2009), and biomass of algae (Khataee et al, 2013), filamentous fungi (Yang et al, 2011) and yeast (Castro et al, 2017) have been successfully applied to decolorize aqueous solutions and textile wastewater

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