Assisting the carbonization of biowaste with potassium formate to fabricate oxygen-doped porous biochar sorbents for removing organic pollutant from aqueous solution

In contrast to the efforts dedicated to applying porous biochars in environmental remediation, the search for green synthesis methods, which are crucial for industrialized production, is often neglected. Herein, oxygen -doped porous biochars were prepared for the first time by the assisted carbonization of hydrochar with a novel noncorrosive activator, potassium formate, and these biochars displayed a porous structure with large amounts of micropores (surface area: 1242 ~ 1386 m(2 )g(-1)). Interestingly, the biochars contained an abundance of oxygen element (20 ~ 26%), which formed many functional groups. Through sorption experiments, it was demonstrated that the oxygen-doped porous biochars were excellent sorbents for diethyl phthalate, and maximum sorption quantity reached 453 mg g(-1). Monolayer sorption by pore filling, hydrogen bonding, elec-trostatic interaction and pi-pi stacking was the potential mechanism. This finding indicated that potassium formate was promising as an activator to greenly convert biowaste into advanced biochars for removing organic pol-lutants from aqueous solutions.

Automated summary

In this study, oxygen-doped porous biochars were prepared for the first time using potassium formate as an activator. These biochars exhibited a porous structure with large amounts of micropores and were found to be excellent sorbents for organic pollutants in water.