Hydrated ferric oxide(HFO)has high adsorp-tion efficiency for As(Ⅲ).However,its high self-aggre-gation usually reduces the efficiency and limits the scaled-up application.Herein,biochar(BC),with large surface area and amounts of surface functional groups was used to tune the loading and distribution of HFO to prepare an efficient adsorbent(HFO/BC)via in-situ synthesis method.The influence of the mass ratio of iron salt to BC on HFO/BC morphology was investigated,and the mechanism was discussed.The results showed that novel HFO was formed and distributed uniformly on the surface of BC when the mass ratio of iron salt to BC was 5:1.The adsorption kinetics and isotherms studies show that the novel HFO/BC(5:1)composite can fast treat As(Ⅲ)with a high adsorption capacity of 104.55 mg·g-1,indicating that it is a potential material for removing arsenic from polluted water.

Tong Zhu;Yun Zhang;Yu Chen;Jun-Liang Liu;Xiao-Li Song

College of Chemistry and Chemical Engineering,Yangzhou University,Yangzhou 225002,China

稀有金属（英文版）

[1]Tong Zhu;Yun Zhang;Yu Chen;Jun-Liang Liu;Xiao-Li Song-.Synthesis of novel hydrated ferric oxide biochar nanohybrids for efficient arsenic removal from wastewater)[J].稀有金属（英文版）,2022(05):1677-1687

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