References

1. F. Zietzschmann, C. Stützer, M. Jekel, Granular activated carbon adsorption of organic micro-pollutants in drinking water and treated wastewater-Aligning breakthrough curves and capacities, Water Res., 92 (2016) 180–187.
2. Y.Z. Wang, X.S. Zhou, C. Lin, Y. Zhang, C.G Han, M. Zhang, V.L. Brigitte, Pollution characteristics of organic pollutants in the ecologically restored water of South Canal, Environ. Chem., 35 (2016) 383–392.
3. M. Ahmad, A.U. Rajapaksha, J.E. Lim, M. Zhang, N. Bolan, D. Mohan, M. Vithanage, S.S. Lee, Y.S. Ok, Biochar as a sorbent for contaminant management in soil and water: a review, Chemosphere, 99 (2014) 19–33.
4. D. Mohan, A. Sarswat, Y.S. Ok, P.C. Jr, Organic and inorganic contaminants removal from water with biochar, a renewable, low cost and sustainable adsorbent: A critical review, Bioresour. Technol., 160 (2014) 191–202.
5. A.P. Puga, C.A. Abreu, L.C.A. Melo, J. Paz-Ferreiro, L. Beesley, Cadmium, lead, and zinc mobility and plant uptake in a mine soil amended with sugarcane straw biochar, Environ. Sci. Pollut. R, 22 (2015) 17606–17614.
6. X. Yang, J.J. Liu, K. Mcgrouther, H.G. Huang, K.P. Lu, X. Guo, L.Z. He, X.M. He, L. Che, Z.Q. Ye, H.L. Wang, Effect of biochar on the extractability of heavy metals (Cd, Cu, Pb, and Zn) and enzyme activity in soil, Environ. Sci. Pollut. R, 23 (2016) 974–984.
7. N. Wang, Y.W. Hou, J.J. Peng, J.L. Dai, C. Cai, Research progress on sorption of organic contaminants to biochar, Environ. Chem., 31 (2012) 287–295.
8. B.L. Chen, D.D. Zhou, L.Z. Zhu, Transitional adsorption and partition of nonpolar and polar aromatic contaminants by biochars of pine needles with different pyrolytic temperatures, Environ. Sci. Technol., 42 (2008) 5137–5143.
9. D.Q. Zhu, S. Kwon, J.J. Pignatello, Adsorption of single-ring organic compounds to wood charcoals prepared under different thermochemical conditions, Environ. Sci. Technol., 39 (2005) 3990–3998.
10. X.F. Tan, Y.G. Liu, G.M. Zeng, X. Wang, X.J. Hu, Y.L. Gu, Z.Z. Yang, Application of biochar for the removal of pollutants from aqueous solutions, Chemosphere, 125 (2015) 70–85.
11. X. Wan, C.G. Mei, L.Z. He, Y.L. He,J.G. Yuan, C.D. Wang, On the synthesis, characterization and phosphate removal of the biocharbased magnetic composites, J. Saf. Environ., 17 (2017) 1069–1075.
12. M.S. Wu, J.F. Ma, S.M. Yang, Z.L. Tian, Y.H. Wang, X.G. Liu, Progress of the magnetic biochar composite materials, J. Funct. Mater., 47 (2016) 7028–7033.
13. Z.N. Xi, Z.B. Li, C.Y. Wang, Z.M. Shi, The removal effect of magnetic biochar on pyrene in aqueous phase, J. Agro-Environ. Sci., 36 (2017) 176–182.
14. M.L. Jiang, H. Jin, C. Deng, S. Wang, Preparation and characterization of nanoparticles containing Fe₃O₄ cores in biochar, J. Agro-Environ. Sci., 37 (2018) 592–597.
15. A. Janus, A. Pelfrêne, S. Heymans, C. Deboffe, F. Douay, C. Waterlot, Elaboration, characteristics and advantages of biochars for the management of contaminated soils with a specific overview on Miscanthus, biochars, J. Environ. Manage., 162 (2015) 275–289.
16. B. Faiza, L. Gerhard, Surface modification of clay minerals, Appl. Clay Sci., 19 (2001) 1–3.
17. Z.F. Meng, R.H. Li, Y.P. Zhang, Z.Q. Zhang, Adsorption of aniline on an organic modified Lou soil, Chn. J. Soil Sci., 1 (2008) 143–149.
18. K. Reitzel, F.O. Andersen, S. Egemose, H.S. Jensen, Phosphate adsorption by lanthanum modified bentonite clay in fresh and brackish water, Water Res., 47 (2013) 2787–2796.
19. V.Y. Gus’Kov, Y.Y. Gainullina, S.P. Ivanov, F.K.H. Kudasheva, Thermodynamics of organic molecule adsorption on sorbents modified with 5-hydroxy-6-methyluracil by inverse gas chromatography, J. Chromatogr. A, 1356 (2014) 230–235.
20. Z.F. Meng, T. Li, S.Y. Yang, S. Ren, Y.P. Liu, N. Gong, B. Zhang, B. Li, Cd(II) adsorption of BS-18 modified bentonite, Acta Pedologica Sinica, 50 (2013) 1236–1240.
21. T. Li, Z.F. Meng, B. Zhang, Adsorption of amphoteric modified bentonites to phenol and its thermodynamics, Environ. Sci., 33 (2012) 1632–1638.
22. W.B. Li, S.Y. Yang, Z.F. Meng, X.B. Cui, W. Liu, D. Bai, Secondary modification mechanisms of BS-12 modified bentonite with DTAB and phenanthrene adsorption by combinedly modified bentonite, J. Agro-Environ. Sci., 34 (2015) 1722–1729.
23. W.B. Li, Z.F. Meng, Q. Wu, S.E. Xu, Z. Liu, Effect of adding compound adsorbent on phenanthrene and Cr(VI) absorption by Lou soil, Environ. Sci., 37 (2016) 4419–4427.
24. D. Wan, W. Li, G. Wang, K. Chen, L. Lu, Q. Hu, Adsorption and heterogeneous degradation of rhodamine B on the surface of magnetic bentonite material, Appl. Surf. Sci., 349 (2015) 988–996.
25. W.B. Li, Z.F. Meng, Q. Wu, D. Bai, S.E. Xu, Y. Lu, Modification mechanism of amphoteric modifier BS–12 on two different clays, Fresen. Environ. Bull., 25 (2016) 3993–4003.
26. Y.G. Chen, W.M. Ye, X.M. Yang, F.Y. Deng, Y. He, Effect of contact time, pH, and ionic strength on Cd(II) adsorption from aqueous solution onto bentonite from Gaomiaozi, China, Environ. Earth Sci., 64 (2011) 329–336.
27. J.M. Wan, X. Liu, W.J. Zhang, M. Zhang, Y.T. Yang, Adsorption characteristics of phenanthrene and naphthaleneon on Lou soil, J. Agro-Environ. Sci., 30 (2011) 1991–1997.
28. J.F. Bai, Z.F. Meng, Y.H. Liu, P.X. Qin, P.Y. Zheng, L.L. Xun, C.H. Guo, Adsorption of phenol on amphoteric-cationic modified Lou soil, Chn. Environ. Sci., 30 (2010) 1389–1394.
29. B. Li, Z.F. Meng, J.T. Wang, L.L. Ma, S.E. Xu, S.Y. Yang, Adsorption of phenol on amphoteric-cationic modified bentonites, J. Agro-Environ. Sci., 33 (2014) 1131–1138.