1. J. Zhao, Z. Liu, D. Sun, TPO–TPD study of an activated carbon-supported copper catalyst–sorbent used for catalytic dry oxidation of phenol, J. Catal., 227 (2004) 297–303.
  2. F. Herrera, A. Lopez, G. Mascolo, P. Albers, J. Kiwi, Catalytic decomposition of the reactive dye Uniblue A on hematite: modeling of the reactive surface, Water Res., 35 (2001) 750–760.
  3. L. Hu, S. Dang, X. Yang, Incorporation of CuO into mesoporous carbon CMK-3 and its adsorption and catalytic oxidation of phenol, Acta Phys. Chim. Sin., 26 (2010) 373–377.
  4. R. Fang, H. Huang, J. Ji, M. He, Q. Feng, Y. Zhan, D. Y.C. Leung, Efficient MnOx supported on coconut shell activated carbon for catalytic oxidation of indoor formaldehyde at room temperature, Chem. Eng. J., 334 (2018) 2050–2057.
  5. L. Hu, S. Dang, X. Yang, J. Dai, Synthesis of recyclable catalyst–sorbent Fe/CMK-3 for dry oxidation of phenol, Micropor. Mesopor. Mater., 147 (2012) 188–193.
  6. Z. Lei, Z. Liu, Behavior of Cu-Ce/AC catalyst–sorbent in dry oxidation of phenol, Fuel Process. Technol., 88 (2007) 607–615.
  7. L.N. Prodan, A.M. Koganocski, V.I. Kofanov, Catalytic regeneration of activated carbon saturated with surface active agents, dyes and phenol, Khim. Tekhnol. Vody., 10 (1988) 278–283.
  8. E. Lorenc-Grabowska, M.A. Diez, G. Gryglewicz, Influence of pore size distribution on the adsorption of phenol on PETbased activated carbons, J. Colloid Interf. Sci., 469 (2016) 205–212.
  9. A.M. Carvajal-Bernal, F. Gómez, L. Giraldo, J.C. Moreno-Piraján, Adsorption of phenol and 2,4-dinitrophenol on activated carbons with surface modifications, Micropor. Mesopor. Mater., 209 (2015) 150–156.
  10. G.S. dos Reis, M.A. Adebayo, C.H. Sampaio, E.C. Lima, P.S. Thue, I.A.S. de Brum, S.L.P. Dias, F.A. Pavan, Removal of phenolic compounds from aqueous solutions using sludge-based activated carbons prepared by conventional heating and microwave-assisted pyrolysis, Water Air Soil Poll., 228 (2017) 1–17.
  11. P. Kowalczyk, A. Deditius, W.P. Ela, M. Wiśniewski, P.A. Gauden, A.P. Terzyk, S. Furmaniak, J. Włoch, K. Kaneko, A.V. Neimark, Super-sieving effect in phenol adsorption from aqueous solutions on nanoporous carbon beads, Carbon, 135 (2018) 12–20.
  12. A. Dasgupta, J. Matos, H. Muramatsu, Y. Ono, V. Gonzalez, H. Liu, C. Rotella, K. Fujisawa, R. Cruz-Silva, Y. Hashimoto, M. Endo, K. Kaneko, L.R. Radovic, M. Terrones, Nano structured carbon materials for enhanced nitrobenzene adsorption: Physical vs chemical surface properties, Carbon, 139 (2018) 833–844.
  13. M. Ondarts, L. Reinert, S. Guittonneau, S. Baup, S. Delpeux, Jean-Marc Lévêque, L. Duclaux, Improving the adsorption kinetics of ibuprofen on an activated carbon fabric through ultrasound irradiation: Simulation and experimental studies, Chem. Eng. J., 343 (2018) 163–172.
  14. B. Li, K. Sun, Y. Guo, J. Tian, Y. Xue, D. Sun, Adsorption kinetics of phenol from water on Fe/AC, Fuel, 110 (2013) 99–106.
  15. N.A. Khan, H.J. An, D.K. Yoo, S.H. Jhung, Polyaniline-derived porous carbons: Remarkable adsorbent for removal of various hazardous organics from both aqueous and non-aqueous media, J. Hazard. Mater., 360 (2018) 163–171.
  16. X. Zheng, H. Lin, Y. Tao, H. Zhang, Selective adsorption of phenanthrene dissolved in Tween 80 solution using activated carbon derived from walnut shells, Chemosphere, 208 (2018) 951–959.
  17. B. Li, Z. Lei, X. Zhang, Z. Huang, Adsorption of simple aromatics from aqueous solutions on modified activated carbon fibers, Catal. Today, 158 (2010) 515–520.
  18. S.A. Messele, O.S.G.P. Soares, J.J.M. Órfão,, C. Bengoa, F. Stüber, A. Fortuny, A. Fabregat, J. Font, Effect of activated carbon surface chemistry on the activity of ZVI/AC catalysts for Fenton-like oxidation of phenol, Catal. Today, 240 (2015) 73–79.
  19. V.M. Gun’ko, V.V. Turov, O.P. Kozynchenko, D. Palijczuk, R. Szmigielski, S.V. Kerus, M.V. Borysenko, E.M. Pakhlov, P.P. Gorbik, Characteristics of adsorption phase with water/organic mixtures at a surface of activated carbons possessing intra particle and textural porosities, Appl. Surf. Sci., 254 (2008) 3220–3231.
  20. I.I. Salame, T.J. Bandosz, Surface chemistry of activated carbons: combining the results of temperature-programmed desorption, Boehm and potentiometric titrations, J. Colloid Interf. Sci., 240 (2001) 252–258.
  21. M. Kilic, E. Apaydin-Varol, A.E. Pütün, Adsorptive removal of phenol from aqueous solutions on activated carbon prepared from tobacco residues: Equilibrium, kinetics and thermodynamics, J. Hazard. Mater., 189 (2011) 397–403.
  22. N. Wibowo, L. Setyadhi, D. Wibowo, J. Setiawan, S. Ismadji, Adsorption of benzene and toluene from aqueous solutions onto activated carbon and its acid and heat treated forms: Influence of surface chemistry on adsorption, J. Hazard. Mater., 146 (2007) 237–242.
  23. A. Dąbrowski, P. Podkościelny, Z. Hubicki, M. Barczak, Adsorption of phenolic compounds by activated carbon - a critical review, Chemosphere, 58 (2005) 1049–1070.
  24. M.A. Islam, I.A.W. Tan,, A. Benhouria,, M. Asif, B.H. Hameed, Mesoporous and adsorptive properties of palm date seed activated carbon prepared via sequential hydrothermal carbonization and sodium hydroxide activation, Chem. Eng. J., 270 (2015) 187–195.
  25. K.C. Bedin, A.C. Martins, A.L. Cazetta, O. Pezoti, V.C. Almeida, KOH-activated carbon prepared from sucrose spherical carbon: Adsorption equilibrium, kinetic and thermodynamic studies for Methylene Blue removal, Chem. Eng. J., 286 (2016) 476–484
  26. A.C. Martins, O. Pezoti, A.L.C. azetta, K.C. Bedi, D.A.S. Yamazaki, G.F.G. Bandoc, T. Asefa, J.V. Visentainer, V.C. Almeida, Removal of tetracycline by NaOH-activated carbon produced from macadamia nut shells: Kinetic and equilibrium studies, Chem. Eng. J., 260 (2015) 291–299.
  27. Z. Lei, Study of Cu-Ce/AC catalyst–sorbent for treating phenol-containing wastewater by adsorption-catalytic dry oxidation [Doctoral thesis], Graduate School of Chinese academy of Science, 2007.
  28. K. Rusevova, F. Kopinke, A. Georgi, Nano-sized magnetic iron oxides as catalysts for heterogeneous Fenton-like reactions — Influence of Fe(II)/Fe(III) ratio on catalytic performance, J. Hazard. Mater., 241–242 (2012) 433–440.
  29. K. Fajerwerg, H. Debellefontaine, Wet oxidation of phenol by hydrogen peroxide using heterogeneous catalysis Fe-ZSM-5: a promising catalyst, Appl. Catal. B -Environ., 10 (1996) 229–235.
  30. Y. Yan, S. Jiang, H. Zhang, Catalytic wet oxidation of phenol with Fe–ZSM-5 catalysts, RSC Adv., 6 (2016) 3850–3859.
  31. J. Zhao, Study of AC-supported metals catalyst–sorbent for treating phenol-containing wastewater by adsorption-catalytic dry oxidation [Doctoral thesis], Graduate School of Chinese academy of Science, 2003.