Insight into the activation mechanisms of biochar by boric acid and its application for the removal of sulfamethoxazole

Sulfamethoxazole (SMX) is frequently detected in the environment and causes a huge threaten to human health. Biochar (BC) is a metal-free adsorbent and generally exhibits a good adsorption capacity for SMX. However, the current activated methods usually result in the high energy consumption and low yield of the biochar. In this study, biochar was activated by boric acid under limited oxygen condition. The yield of biochar was increased by 103% after the activated by boric acid. The specific surface area of BC was significantly increased from 766.6 m2·g−1 to 1190.6 m2·g−1. The intensity of the (111) diamond peak of B-BC was higher than that of BC, suggesting that boric acid affected the surface pyrolysis temperature of biochar. The proposed roles of boric acid in the activation process were to: 1) enhance the generation of micropores during the pyrolysis process; 2) improve the yield of biochar via the transformation pathways of C-corresponding bonds and physical blocking. The boric acid activated biochar (B-BC) had a higher adsorption capacity for SMX than BC under the various aqueous conditions. Hence, boric acid activated biochar is a promising porous adsorbent to enhance the removal of SMX and achieve practical application. [Display omitted] ●Boric acid could be as the activator for the preparation of biochar.●The yield of biochar was increased by 103% with addition of boric acid.●Specific surface area of biochar was improved by the activation of boric acid.●B-BC showed a higher SMX adsorption capacity than BC.●Adsorption capacity of SMX by B-BC could reach 64.62 mg·L−1 after five times.