References

1. Y. Cao, V. Fatemi, S. Fang, K. Watanabe, T. Taniguchi, E. Kaxiras, P. Jarillo-Herrero, Unconventional superconductivity in magicangle graphene superlattices, Nature, 556 (2018) 43–50.
2. D. Xu, B. Cheng, W. Wang, C. Jiang, J. Yu, Ag₂CrO₄/g-C₃N₄/graphene oxide ternary nanocomposite Z-scheme photocatalyst with enhanced CO₂ reduction activity, Appl. Catal., B, 231 (2018) 368–380.
3. X.M. Yu, P. Han, Z.X. Wei, L.S. Huang, Z.X. Gu, S.J. Peng, J.M. Ma, G.F. Zheng, Boron-doped graphene for electrocatalytic N₂ reduction, Joule, 2 (2018) 1610–1622.
4. J.R. He, G. Hartmann, M. Lee, G.S. Hwang, Y.F. Chen, A. Manthiram, Free-standing 1T MoS₂/graphene heterostructures as a highly efficient electrocatalyst for lithium polysulfides in Li-S batteries, Energy Environ. Sci., 12 (2019) 344–350.
5. J.L. Liu, Y.Q. Zhang, L. Zhang, F.X. Xie, A. Vasileff, S.Z. Qiao, Graphitic carbon nitride-derived N-rich graphene with tuneable interlayer distance as a high-rate anode for sodiumion batteries, Adv. Mater., 31 (2019) 1901261, doi: 10.1002/ adma.201901261.
6. J.W. McIver, B. Schulte, F.-U. Stein, T. Matsuyama, G. Jotzu, G. Meier, A. Cavalleri, Light-induced anomalous hall effect in graphene, Nat. Phys., 16 (2020) 38–41.
7. R.B. Zhao, C.W. Liu, X.X. Zhang, X.J. Zhu, P.P. Wei, L. Ji, Y.B. Guo, S.Y. Gao, Y.L. Luo, Z.M. Wang, X.P. Sun, An ultrasmall Ru₂P nanoparticles-reduced graphene oxide hybrid: an efficient electrocatalyst for NH₃ synthesis under ambient conditions, J. Mater. Chem. A, 8 (2020) 77–81.
8. X.B. Zhu, Y. Shan, S.J. Xiong, J.C. Shen, X.L. Wu, Brianyoungite/ graphene oxide coordination composites for high-performance Cu²⁺ adsorption and tunable deep-red photoluminescence, ACS Appl. Mater. Interfaces, 8 (2016) 15848−15854.
9. Y.N. Ma, Y. Yue, H. Zhang, F. Cheng, W.Q. Zhao, J.Y. Rao, S.J. Luo, J. Wang, X.L. Jiang, Z.T. Liu, N.S. Liu, Y.H. Gao, 3D synergistical MXene/reduced graphene oxide aerogel for a piezoresistive sensor, ACS Nano, 12 (2018) 3209–3216.
10. H.J. Yan, Y. Xie, Y.Q. Jiao, A.P. Wu, C.G. Tian, X.M. Zhang, L. Wang, H.G. Fu, Holey reduced graphene oxide coupled with an Mo₂N-Mo₂C heterojunction for efficient hydrogen evolution, Adv. Mater., 30 (2018) 1704156, doi: 10.1002/adma.201704156.
11. J. Zhao, X.S. Cao, Z.Y. Wang, Y.H. Dai, B.S. Xing, Mechanistic understanding toward the toxicity of
    graphene-family materials to freshwater algae, Water Res., 111 (2017) 18–27.
12. O. Akhavan, E. Ghaderi, Toxicity of graphene and graphene oxide nanowalls against bacteria, ACS Nano, 4 (2010) 5731–5736.
13. X.H. Lv, Y. Yang, Y. Tao, Y.L. Jiang, B.Y. Chen, X.S. Zhu, Z.H. Cai, B. Li, A mechanism study on toxicity of graphene oxide to daphnia magna: direct link between bioaccumulation and oxidative stress, Environ. Pollut., 234 (2018) 953–959.
14. M.Y. Wang, Y.X. Sun, X.Y. Cao, G.T. Peng, I. Javed, A. Kakinen, T.P. Davis, S.J. Lin, J.Q. Liu, F. Ding, P.C. Ke, Graphene quantum dots against human IAPP aggregation and toxicity in vivo, Nanoscale, 10 (2018) 19995–20006.
15. X.Y. Yuan, D. Peng, Q.Y. Jing, J.W. Niu, X. Cheng, Z.J. Feng, W. Wu, Green and effective removal of aqueous graphene oxide under UV-light irradiation, Nanomaterials, 8 (2018) 654, doi: 10.3390/nano8090654.
16. J. Wang, X. Wang, L. Tan, Y. Chen, T. Hayat, J. Hu, A. Alsaedi, B. Ahmad, W. Guo, X. Wang, Performances and mechanisms of Mg/Al and Ca/Al layered double hydroxides for graphene oxide removal from aqueous solution, Chem. Eng. J., 297 (2016) 106–115.
17. Y. Zou, X. Wang, Z. Chen, W. Yao, Y. Ai, Y. Liu, T. Hayat, A. Alsaedi, N.S. Alharbi, X. Wang, Superior coagulation of graphene oxides on nanoscale layered double hydroxides and layered double oxides, Environ. Pollut., 219 (2016) 107–117.
18. J. Wang, Y. Li, W. Chen, J. Peng, J. Hu, Z. Chen, T. Wen, S. Lu, Y. Chen, T. Hayat, B. Ahmad, X. Wang, The rapid coagulation of graphene oxide on La-doped layered double hydroxides, Chem. Eng. J., 309 (2017) 445–453.
19. X. Yuan, J. Niu, Y. Lv, Q. Jing, L. Li, Ultrahigh-capacity and fast-rate removal of graphene oxide by calcined MgAl layered double hydroxide, Appl. Clay Sci., 156 (2018) 61–68.
20. L. Duan, R.J. Hao, Z. Xu, X.Z. He, A.S. Adeleye, Y. Li, Removal of graphene oxide nanomaterials from aqueous media via coagulation: effects of water chemistry and natural organic matter, Chemosphere, 168 (2017) 1051–1057.
21. X.Y. Yuan, J.W. Niu, J.J. Zeng, Q.Y. Jing, Cement-induced coagulation of aqueous graphene oxide with ultrahigh capacity and high rate behavior, Nanomaterials, 8 (2018) 574, doi: 10.3390/nano8080574.
22. X. Wen, X. Jin, F. Wang, Y. You, Y. Chu, P.B. Zetterlund, R.K. Joshi, Cation-induced coagulation in graphene oxide suspensions, Mater. Today Chem., 13 (2019) 139–146.
23. X.B. Zhu, J.L. Zhang, S.Y. Wu, Z.C. Zhou, Efficient coagulation and removal of aqueous graphene oxide by different dyes, Desal. Water Treat., 217 (2021) 339–349.
24. X.B. Zhu, L. Zhang, B. Zuo, Z.C. Zhou, Y.F. Yang, J.L. Zhang, S.Y. Wu, Ion-induced coagulation of hexagonal boron nitride nanosheets in aqueous environment, Colloid Interface Sci. Commun., 44 (2021) 100475, doi:10.1016/j.colcom.2021.100475.
25. S. Liu, J. Tian, L. Wang, H. Li, Y. Zhang, X. Sun, Stable aqueous dispersion of graphene nanosheets: noncovalent functionalization by a polymeric reducing agent and their subsequent decoration with Ag nanoparticles for enzymeless hydrogen peroxide detection, Macromolecules, 43 (2010) 10078–10083.
26. V. Chandra, J. Park, Y. Chun, J.W. Lee, I.C. Hwang, K.S. Kim, Water-dispersible magnetite-reduced graphene oxide composites for arsenic removal, ACS Nano, 4 (2010) 3979–3986.
27. C.C. Ding, W.C. Cheng, X.X. Wang, Z.Y. Wu, Y.B. Sun, C.L. Chen, X.K. Wang, S.H. Yu, Competitive sorption of Pb(II), Cu(II) and Ni(II) on carbonaceous nanofibers: a spectroscopic and modeling approach, J. Hazard. Mater., 313 (2016) 253–261.
28. Y. Si, E.T. Samulski, Synthesis of water soluble graphene, Nano Lett., 8 (2008) 1679–1682.