References

  1. R.A. Schmitt, R.H. Smith, J.E. Lasch, A.W. Mosen, D.A. Olehy, J. Vasilevskis, Abundances of the fourteen rare-earth elements, scandium, and yttrium in meteoritic and terrestrial matter, Geochim. Cosmochim. Acta, 27 (1963) 577–622.
  2. W. Gwenzi, L. Mangori, C. Danha, N. Chaukura, N. Dunjana, E. Sanganyado, Sources, behaviour, and environmental and human health risks of high-technology rare earth elements as emerging contaminants, Sci. Total Environ., 636 (2018) 299–313.
  3. M. Peng, X. Tang, Y. Zhou, Fast phase transfer of graphene oxide from water to triglycidyl para-aminophenol for epoxy composites with superior nanosheet dispersion, Polymer, 93 (2016) 1–8.
  4. H. Bahrami, H. Salehabadi, Experimental and theoretical investigation of para-aminophenol ionization in corona discharge, J. Mol. Struct., 1083 (2015) 330–335.
  5. T. Komatsu, T. Hirose, Gas phase synthesis of para-aminophenol from nitrobenzene on Pt/zeolite catalysts, Appl. Catal. A-Gen., 276 (2004) 95–102.
  6. S.L. Chen, Z.P. Xu, Q. Zhang, G.Q.M. Lu, Z.P. Hao, S.M. Liu, Studies on adsorption of phenol and 4-nitrophenol on MgAl mixed oxide derived from MgAl-layered double hydroxide, Sep. Purif. Technol., 67 (2009) 194–200.
  7. J. Zou, X.Q. Chen, G.Q. Zhao, X.Y. Jiang, F.P. Jiao, J.G. Yu, A novel electrochemical chiral interface based on the synergistic effect of polysaccharides for the recognition of tyrosine enantiomers, Talanta, 195 (2019) 628–637.
  8. J. Yang, B. Yue, J. Teng, X. Xu, X. Zhao, X. Jiang, J. Yu, F. Zhou, Aqueous metal ions adsorption by poly(ethylene glycol) modified graphene oxide: surface area and surface chemistry effects, Desal. Water Treat., 138 (2019) 147–158.
  9. M. Ghaedi, A. Hassanzadeh, S.N. Kokhdan, Multiwalled carbon nanotubes as adsorbents for the kinetic and equilibrium study of the removal of alizarin red S and morin, J. Chem. Eng. Data, 56 (2011) 2511–2520.
  10. Z. Wu, H. Zhong, X. Yuan, H. Wang, L. Wang, X. Chen, G. Zeng, Y. Wu, Adsorptive removal of methylene blue by rhamnolipid-functionalized graphene oxide from wastewater, Water Res., 67 (2014) 330–344.
  11. L. Zhu, M. Gao, C.K.N. Peh, X. Wang, G.W. Ho, Carbon sponges: Self-contained monolithic carbon sponges for solardriven interfacial water evaporation distillation and electricity generation, Adv. Energy Mater., 8 (2018) 1870074.
  12. S.W.L. Ng, G. Yilmaz, W.L. Ong, G.W. Ho, One-step activation towards spontaneous etching of hollow and hierarchical porous carbon nanospheres for enhanced pollutant adsorption and energy storage, Appl. Catal. B-Environ., 220 (2018) 533–541.
  13. W.L. Ong, J.H.M. Wong, S.W.L. Ng, H.R. Tan, Y.F. Lim, G.W. Ho, Simultaneous activation–exfoliation–reassembly to form layered carbon with hierarchical pores, Chem. Cat. Chem., 9 (2017) 2488–2495.
  14. L. Zhu, C. Fu Tan, M. Gao, G.W. Ho, Design of a metal oxide–organic framework (MoOF) foam microreactor: Solar-induced direct pollutant degradation and hydrogen generation, Adv. Mater., 27 (2015) 7713–7719.
  15. W. Zhan, S. Yu, L. Gao, F. Wang, X. Fu, G. Sui, X. Yang, Bioinspired assembly of carbon nanotube into graphene aerogel with “cabbage like” hierarchical porous structure for highly efficient organic pollutants cleanup, ACS Appl. Mater. Interf., 10 (2018) 1093–1103.
  16. P. Sharma, N. Hussain, D.J. Borah, M.R. Das, Kinetics and adsorption behavior of the methyl blue at the graphene oxide/reduced graphene oxide nanosheet–water interface: a comparative study, J. Chem. Eng. Data, 58 (2013) 3477–3488.
  17. C.C. Dong, J. Lu, B.C. Qiu, B. Shen, M.Y. Xing, J.L. Zhang, Developing stretchable and graphene-oxide-based hydrogel for the removal of organic pollutants and metal ions, Appl. Catal. B-Environ., 222 (2018) 146–156.
  18. J.L. Xiao, W.Y. Lv, Z. Xie, Y.Q. Tan, Y.H. Song, Q. Zheng, Environmentally friendly reduced graphene oxide as a broad-spectrum adsorbent for anionic and cationic dyes via pi-pi interactions, J. Mater. Chem. A, 4 (2016) 12126–12135.
  19. I. Duru, D. Ege, A.R. Kamali, Graphene oxides for removal of heavy and precious metals from wastewater, J. Mater. Sci., 51 (2016) 6097–6116.
  20. J. Zou, G. Zhao, J. Teng, Q. Liu, X. Jiang, F. Jiao, J. Yu, Highly sensitive detection of bisphenol A in real water samples based on in-situ assembled graphene nanoplatelets and gold nanoparticles composite, Microchem. J., 145 (2019) 693–702.
  21. J. Zou, L. Huang, X. Jiang, F. Jiao, J. Yu, Electrochemical behaviors and determination of rifampicin on graphene nanoplatelets modified glassy carbon electrode in sulfuric acid solution, Desal. Water Treat., 120 (2018) 272–281.
  22. Z.H. Sheng, L. Shao, J.J. Chen, W.J. Bao, F.B. Wang, X.H. Xia, Catalyst-free synthesis of nitrogen-doped graphene via thermal annealing graphite oxide with melamine and its excellent electrocatalysis, ACS Nano, 5 (2011) 4350–4358.
  23. Z.N. Huang, J. Zou, J. Teng, Q. Liu, M.M. Yuan, F.P. Jiao, X.Y. Jiang, J.G. Yu, A novel electrochemical sensor based on self-assembled platinum nanochains - Multi-walled carbon nanotubes-graphene nanoparticles composite for simultaneous determination of dopamine and ascorbic acid, Ecotox. Environ. Safe., 172 (2019) 167–175.
  24. X. Xu, J. Zou, J. Teng, Q. Liu, X.Y. Jiang, F.P. Jiao, J.G. Yu, X.Q. Chen, Novel high-gluten flour physically cross-linked graphene oxide composites: Hydrothermal fabrication and adsorption properties for rare earth ions, Ecotox. Environ. Safe., 166 (2018) 1–10.
  25. N. Yusof, S. Rahman, M. Hussein, N. Ibrahim, Preparation and characterization of molecularly imprinted polymer as SPE sorbent for melamine isolation, Polymers, 5 (2013) 1215–1228.
  26. A. Hayashi, H. Nakayama, M. Tsuhako, Intercalation of melamine into layered zirconium phosphates and their adsorption properties of formaldehyde in gas and solution phase, Solid State Sci., 11 (2009) 1007–1015.
  27. C. Wu, Q.Y. Cheng, S.Q. Sun, B.H. Han, Templated patterning of graphene oxide using self-assembled monolayers, Carbon, 50 (2012) 1083–1089.
  28. J.J. Xu, K. Wang, S.Z. Zu, B.H. Han, Z.X. Wei, Hierarchical nanocomposites of polyaniline nanowire arrays on graphene oxide sheets with synergistic effect for energy storage, ACS Nano, 4 (2010) 5019–5026.
  29. X. Zeng, J. Yu, D. Fu, H. Zhang, J. Teng, Wear characteristics of hybrid aluminum-matrix composites reinforced with well-dispersed reduced graphene oxide nanosheets and silicon carbide particulates, Vacuum, 155 (2018) 364–375.
  30. X. Zeng, J. Teng, J.G. Yu, A.S. Tan, D.F. Fu, H. Zhang, Fabrication of homogeneously dispersed graphene/Al composites by solution mixing and powder metallurgy, Int. J. Miner. Metall. Mater., 25 (2018) 102–109.
  31. H. Gao, D. Chen, J. Wu, G. Xu, Determination of stability constants of mixed ligand complexes of rare earths by method of two-phase titrations, Chem. J. Chin. Univ.-Chin., 2 (1981) 417–422.
  32. B. Yue, L. Yu, F. Jiao, X. Jiang, J. Yu, The fabrication of pentaerythritol pillared graphene oxide composite and its adsorption performance towards metal ions from aqueous solutions, Desal. Water Treat., 102 (2018) 124–133.
  33. X.L. Zhao, S.L. Liu, Z. Tang, H.Y. Niu, Y.Q. Cai, W. Meng, F.C. Wu, J.P. Giesy, Synthesis of magnetic metal-organic framework (MOF) for efficient removal of organic dyes from water, Sci. Rep., 5 (2015).
  34. R.R. Li, J.Y. Yu, A. Shah, X.L. Dong, X.N. Li, H.T. Yu, X. Quan, Y. Jung, Novel in situ synthesized Fe@C magnetic nanocapsules used as adsorbent for removal of organic dyes and its recycling, Nano, 11 (2016).
  35. M.A. Malana, S. Parveen, R.B. Qureshi, Adsorptive removal of organic dyes from aqueous solutions using acrylic acid-acrylonitrile-N-isopropylacrylamide polymeric gels as adsorbents: linear and non linear isotherms, Desal. Water Treat., 57 (2016) 22543–22550.
  36. J. Yang, X. Jiang, F. Jiao, J. Yu, The oxygen-rich pentaerythritol modified multi-walled carbon nanotube as an efficient adsorbent for aqueous removal of alizarin yellow R and alizarin red S, Appl. Surf. Sci., 436 (2018) 198–206.
  37. L. Adlnasab, M. Shabanian, M. Ezoddin, A. Maghsodi, Amine rich functionalized mesoporous silica for the effective removal of alizarin yellow and phenol red dyes from waste waters based on response surface methodology, Mater. Sci. Eng. B-Solid State Mater. Adv. Technol., 226 (2017) 188–198.