1. B. Karn, T. Kuiken, M. Otto, Nanotechnology and in situ remediation: a review of the benefits and potential risks, Environ. Health Perspect., 117 (2009) 1823–1831.
  2. D. Caroll, B. Sleep, M. Krol, H. Boparai, C. Kocur, Nanoscale zerovalent iron and bimetallic particles for contaminated site remediation, Adv. Water Res., 51 (2013) 104–122.
  3. W.J. Liu, T.T. Qian, H. Jiang, Bimetallic Fe nanoparticles: recent advances in synthesis and application in catalytic elimination of environmental pollutants, Chem. Eng. J., 236 (2014) 448–463.
  4. K. Mondal, G. Jegadeesan, S.B. Lalvani, Removal of selenate by Fe and NiFe nanosized particles, Ind. Eng. Chem. Res., 43 (2004) 4922–4934.
  5. D.W. Elliott, W-x. Zhang, Field assessment of nanoscale bimetallic particles for groundwater treatment, Environ. Sci. Technol., 35 (2001) 4922–4926.
  6. M.O. Nutt, J.B. Hughes, M.S. Wong, Designing Pd-on-Au bimetallic nanoparticle catalysts for trichloroethene hydrodechlorination, Environ. Sci. Technol., 39 (2005) 1346–1353.
  7. W.X. Zhang, C.B. Wang, H.L. Lien, Treatment of chlorinated organic contaminants with nanoscale bimetallic particles, Catal. Today, 40 (1998) 387–395.
  8. B. Schrick, J.L. Blough, A.D. Jones, T.E. Mallouk, Hydrodechlorination of trichloroethylene to hydrocarbons using bimetallic nickel–iron nanoparticles, Chem. Mater., 14 (2002) 5140–5147.
  9. A. Colombo, C. Dragonetti, M. Magni, D. Roberto, Degradation of toxic halogenated organic compounds by iron-containing mono-, bi-and tri-metallic particles in water, Inorg. Chim. Acta, 431 (2015) 48–60.
  10. Z. Zhang, S. Hu, S.A. Baig, J. Tang, X. Xu, Catalytic dechlorination of Aroclor 1242 by Ni/Fe bimetallic nanoparticles, J. Colloid Interface Sci., 385 (2012) 160–165.
  11. H. Choi, S. Agarwal, S.R. Al-Abed, Adsorption and simultaneous dechlorination of PCBs on GAC/Fe/Pd: mechanistic aspects and reactive capping barrier concept, Environ. Sci. Technol., 43 (2009) 488–493.
  12. G. Jegadeesan, K. Mondal, S.B. Lalvani, Arsenate remediation using nanosized modified zerovalent iron particles, Environ. Prog. Sustain. Energy, 24 (2005) 289–296.
  13. L. Ling, B. Pan, W-x. Zhang, Removal of selenium from water with nanoscale zero-valent iron: mechanisms of intra-particle reduction of Se (IV), Water Res., 71 (2015) 274–281.
  14. C. Tang, Y.H. Huang, Z.H. Zhang, Reductive removal of selenate by zero-valent iron: the roles of aqueous Fe2+ and corrosion products, and selenate removal mechanisms, Water Res., 67 (2014) 166–174.
  15. S. Zhou, Y. Li, J. Chen, Z. Liu, Z. Wang, P. Na, Enhanced Cr(VI) removal from aqueous solutions using Ni/Fe bimetallic nanoparticles: characterization, kinetics and mechanism, RSC Adv., 4 (2014) 50699–50707.
  16. C.T. Campbell, S.C. Parker, The effect of size-dependent nanoparticle energetics on catalyst sintering, Science, 298 (2002) 811–814.
  17. L.F. Greenlee, J.D. Torrey, R.L. Amaro, J.M. Shaw, Kinetics of zero valent iron nanoparticle oxidation in oxygenated water, Environ. Sci. Technol., 46 (2012) 12913–12920.
  18. J.E. Conde, M. Sanz Alaejos, Selenium concentrations in natural and environmental waters, Chem. Rev., 97 (1997) 1979–2003.
  19. L. Liang, W. Yang, X. Guan, J. Li, Z. Xu, J. Wu, Y. Huang, X. Zhang, Kinetics and mechanisms of pH-dependent selenite removal by zero valent iron, Water Res., 47 (2013) 5846–5855.
  20. C.M. Su, D.L. Suarez, Selenate and selenite sorption on iron oxides: an infrared and electrophoretic study, Soil Sci. Soc. Am. J., 64 (2000) 101–111.
  21. J.T. Olegario, N. Yee, M. Miller, J. Sczepaniak, B. Manning, Reduction of Se(VI) to Se(II) by zerovalent iron nanoparticle suspensions, J. Nanopart. Res., 12 (2010) 2057–2068.
  22. I.H. Yoon, K.W. Kim, S. Bang, M.G. Kim, Reduction and adsorption mechanisms of selenate by zero-valent iron and related iron corrosion, Appl. Catal., B, 104 (2011) 185–192.
  23. T. Kohn, W.A. Arnold, A.L. Roberts, Reactivity of substituted benzotrichlorides toward granular iron, Cr(II), and an iron(II) porphyrin: a correlation analysis, Environ. Sci. Technol., 40 (2006) 4253–4260.
  24. V. Janda, P. Vasek, J. Bizova, Z. Belohlav, Kinetic models for volatile chlorinated hydrocarbons removal by zero-valent iron, Chemosphere, 54 (2004) 917–925.
  25. C. Lee, D.L. Sedlak, Enhanced formation of oxidants from bimetallic nickel−iron nanoparticles in the presence of oxygen, Environ. Sci. Technol., 42 (2008) 8528–8533.
  26. K.S. Wang, C.L. Lin, M.C. Wei, H.H. Liang, H.C. Li, C.H. Chang, S.H. Chang, Effects of dissolved oxygen on dye removal by zero-valent iron, J. Hazard. Mater., 182 (2010) 886–895.