Air-engaged synthesis of yeast biomass-derived porous O, p-codoped biochar as metal free catalyst towards water decontamination

Abstract

Facile and sustainable preparation of effective metal-free catalysts using natural biomass as a feedstock is essential but challenging for peroxymonosulfate activation in degrading organic pollutants in wastewater. In this study, we develop an air-engaged pyrolysis method to successfully prepare O, P dual-doped porous carbon material (Yeast-T) using biomass yeast as a feedstock. Among the samples, Yeast-650 exhibits the highest performance in activating peroxymonosulfate towards the destruction of methyl orange, achieving a removal efficiency of 98 % in 30 min and a rate constant of 0.226 min−1. The non-radical pathway, with singlet oxygen as the active substance, dominates the destruction of methyl orange over the Yeast-650/peroxymonosulfate system. Based on the detected intermediates, four possible pathways for methyl orange degradation by the Yeast-650/peroxymonosulfate system are unveiled. The toxicity analysis of the degradation products was evaluated by calculating and comparing the radicle length of mung bean in different solutions and the germination of wheat seeds in different solutions. This study presents a simple and feasible air-mediated synthetic method for high-performance metal-free peroxymonosulfate activators in the removal of organic pollutants.