References

  1. M. Maliszewska-Mazur, Nanotechnology—new challenges, new possibilities and new questions, Environ. Prot. Nat. Resour., 45 (2010) 153–161.
  2. M. Pierścieniak, A. Barański, B. Gworek, Nanoparticles: an environmental threat?, Przem. Chem., 91 (2012) 564–568.
  3. X. Hu, D. Li, Y. Gao, L. Mu, Q. Zhou, Knowledge gaps between nanotoxicological research and nanomaterial safety, Environ. Int., 94 (2016) 8–23.
  4. J. Rybak, R. Kalinowski, S. Paczkowski, B. Tomczyk, M. Kaźmierczuk, K. Librant, M. Łepecki, Graphene stability under quasi-environmental conditions, Przem. Chem., 3 (2016) 536–540.
  5. OECD, Test No. 202: Daphnia sp., Acute Immobilisation Test, OECD Guidelines for the Testing of Chemicals/Section 2, OECD Publishing, Paris, 2004, pp. 1–12.
  6. ASTM Standard, Standard Guide for Conducting Acute Toxicity Tests on Test Materials with Fishes, Macroinvertebrates, and Amphibians, ASTM International, West Conshohocken, PA, 2007.
  7. S. Chowdhury, R. Balasubramanian, Recent advances in the use of graphene-family nanoadsorbents for removal of toxic pollutants from wastewater, Adv. Colloid Interface Sci., 204 (2014) 35–56.
  8. C. Chung, Y.K. Kim, D. Shin, S.R. Ryoo, B.H. Hong, D.H. Min, Biomedical applications of graphene and graphene oxide, Acc. Chem. Res., 46 (2013) 2211–2224.
  9. A. Khan, J. Wang, J. Li, X.X. Wang, Z. Chen, A. Alsaedi, T. Hayat, Y. Chen, X.X. Wang, The role of graphene oxide and graphene oxide-based nanomaterials in the removal of pharmaceuticals from aqueous media: a review, Environ. Sci. Pollut. Res., 24 (2017) 7938–7958.
  10. Y. Liu, W. Fan, Z. Xu, W. Peng, S. Luo, Comparative effects of graphene and graphene oxide on copper toxicity to Daphnia magna: role of surface oxygenic functional groups, Environ Pollut., 236 (2018) 962–970.
  11. X. Lv, Y. Yang, Y. Tao, Y. Jiang, B. Chen, X. Zhu, Z. 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.
  12. J.P. Souza, F.P. Venturini, F. Santos, V. Zucolotto, Chronic toxicity in Ceriodaphnia dubia induced by graphene oxide, Chemosphere, 190 (2018), 218–224.
  13. J. Zhao, X. Cao, Z. Wang, Y. Dai, B. Xing, Mechanistic understanding toward the toxicity of graphene-family materials to freshwater algae, Water Res., 111 (2017) 18–27.
  14. C. Hu, Q. Wang, H. Zhao, L. Wang, S. Guo, X. Li, Ecotoxicological effects of graphene oxide on the protozoan Euglena gracilis, Chemosphere, 128 (2015) 184–190.
  15. T. Mesarič, C. Gambardella, T. Milivojević, M. Faimali, D. Drobne, C. Falugi, D. Makovec, A. Jemec, K. Sepčić, High surface adsorption properties of carbon-based nanomaterials are responsible for mortality, swimming inhibition, and biochemical responses in Artemia salina larvae, Aquat. Toxicol., 163 (2015) 121–129.
  16. J.P. Souza, J.F. Baretta, F. Santos, I.M.M. Paino, V. Zucolotto, Toxicological effects of graphene oxide on adult zebrafish (Danio rerio), Aquat. Toxicol., 186 (2017) 11–18.
  17. R.G. Combarros, S. Collado, M. Díaz, Toxicity of graphene oxide on growth and metabolism of Pseudomonas putida, J. Hazard. Mater., 310 (2016) 246–252.
  18. P. Brandeburová, L. Bírošová, M. Vojs, A. Kromka, M. Gál, J. Tichý, J. Híveš, T. Mackuľak, The influence of selected nanomaterials on microorganisms, Monatshefte fuer Chemie., 148 (2017) 525–530.
  19. H.N. Nguyen, S.L. Castro-Wallace, D.F. Rodrigues, Acute toxicity of graphene nanoplatelets on biological wastewater treatment process, Environ. Sci. Nano., 4 (2017) 160–169.
  20. C. Peng, W. Zhang, H. Gao, Y. Li, X. Tong, K. Li, X. Zhu, Y. Wang, Y. Chen, Behavior and potential impacts of metalbased engineered nanoparticles in aquatic environments, Nanomaterials, 7 (2017) 21.
  21. Y. Zhao, C.T. Jafvert, Environmental photochemistry of single layered graphene oxide in water, Environ. Sci. Nano., 2 (2015) 136–142.
  22. Z. Hua, Z. Tang, Z. Bai, J. Zhang, L. Yu, H. Cheng, Aggregation and resuspension of graphene oxide in simulated natural surface aquatic environments, Environ Pollut., 205 (2015) 161–169.
  23. K. He, G. Chen, G. Zeng, M. Peng, Z. Huang, J. Shi, T. Huang, Stability, transport and ecosystem effects of graphene in water and soil environments, Nanoscale, 17 (2017) 5370–5388.
  24. F. Abbasi, J. Karimi-Sabet, C. Ghotbi, Z. Abbasi, S.A. Mousavi, N. Amini, The effect of pH on lateral size and surface chemistry of graphene oxide, Scientia Iranica, 24 (2017) 3554–3559.
  25. I. Chowdhury, M.C. Duch, N.D. Mansukhani, M.C. Hersam D. Bouchard, Colloidal properties and stability of graphene oxide nanomaterials in the aquatic environment, Environ. Sci. Technol., 47 (2013) 6288–6296.
  26. M. Wang, B. Gao, D. Tang, H. Sun, X. Yin, C. Yu, Effects of temperature on aggregation kinetics of graphene oxide in aqueous solutions, Colloids Surf., A, 538 (2018) 63–72.
  27. L. Ou, B. Song, H. Liang, J. Liu, X. Feng, B. Deng, T. Sun, L. Shao, Toxicity of graphene-family nanoparticles: a general review of the origins and mechanisms, Part. Fibre Toxicol., 13 (2016) 57.