Environmental Engineering Reference
In-Depth Information
could limit their acceptance among the scientii c community, regulating
agencies, private and public sector. h e potential benei ts and environmen-
tal risks associated with the use of nFe
0
should be carefully weighed before
the implementation of this technology in order to minimize any unintended
impact on the ecosystem. Future studies should address issues concerning
the mobility, reactivity, long-term fate and ecological impact of nFe
0
. A fun-
damental understanding of behavior, interactions and overall impact of nFe
0
on environment could lead to universal acceptance of this technology.
References
1. C.C. Huang, S.L. Lo, and H.L. Lien,
Chem. Eng. J.
, Vol. 219, p. 311, 2013.
2. M.R. Song, M. Chen, and Z.J. Zhang,
Material Characterization
, Vol. 59,
p. 514, 2008.
3. Y.H. Kim, and E.R. Canaway,
Environ. Technol.
, Vol. 24, p. 1455, 2003.
4. R.W. Gillham, and S.F. O'Hannesin,
Ground Water
, Vol. 32, p. 958, 1994.
5. M.S.H. Mak, P. Rao, and I.M.C. Lo,
Environ. Pollut.
, Vol. 159, p. 377, 2011.
6. S.C. Kim, J.E. Yang, Y.S. Ok, J. Skousen, D.G. Kim, and J.H. Joo,
Bull. Environ.
Contam. Toxicol.
, Vol. 84, p. 459, 2010.
7. D.C.W. Tsang, N.J.D. Grahm, and I.M.C. Lo,
Chemosphere
, Vol. 575, p. 1338,
2009.
8. T. Liu, D.C.W. Tsang, and I.M.C. Lo,
Environ. Sci. Technol.
, Vol. 42, p. 2092,
2008.
9. R.A. Doong, and Y.L. Lai,
Chemosphere
, Vol. 64, p. 371, 2006.
10. I.M.C. Lo, C.S.C. Lam, and K.C.K. Lai,
Water Res.
, Vol. 40, p. 595, 2006.
11. X.Q. Li, D.W. Elliott, and W.X. Zhang,
Crit. Rev. Solid State Mater. Sci.
,
Vol. 31, p. 111, 2006.
12. L. Li, M. Fan, R.C. Brown, and J.H.V. Leeuwen,
Crit. Rev. Environ. Sci.
Te c h n o l .
, Vol. 36, p. 405, 2006.
13. B. Nowack,
Environ. Aspect
, Vol. 2, p. 1, 2008.
14. A.B. Cundy, L. Hopkinson, and R.L.D. Whitby,
Sci. Tot. Environ.
, Vol. 400,
p. 42, 2008.
15. R.A. Crane, and T.B. Scott,
J. Hazard. Mater.
, Vol. 211-212, p. 112, 2012.
16. Y.P. Sun, J. Cao, W.X. Zhang, and H.P. Wang,
Adv. Colloid Interf. Sci.
, Vol. 37,
p. 47, 2006.
17. L.T. Kuhn, A. Bojesen, L. Timmermann, M.M. Nielsen, and S. Morup,
J.
Phys. Condens. Matter
, Vol. 14, p. 13551, 2002.
18. G.N. Glavee, K.J. Klabunde, C.M. Sorensen, and G.C. Hadjipanayis,
Inorg.
Chem.
, Vol. 34, p. 28, 1995.
19. C.J. Choi, X.L. Dong, and B.K. Kim,
Mater. Trans.
, Vol. 42, p. 2046, 2001.
20. R. Singh, V. Misra, and R.P. Singh,
J. Nanoparticle Res.
, Vol. 13, p. 4063, 2011.
21. M.N.A. Karlsson, K. Deppert, B.A. Wacaser, L.S. Karlsson, and J.O. Malm,
Appl. Phys. A: Mater. Sci. Process.
, Vol. 80, p. 1579, 2005.
Search WWH ::
Custom Search