Biomedical Engineering Reference
In-Depth Information
[39] G.R. Samorodnitzky-Naveh, M. Redlich, L. Rapoport, Y. Feldman, R. Tenne, Inorganic fullerene-like
tungsten disulphide nanocoating for friction reduction of nickel
titanium alloys, Nanomedicine 4 (2009)
943
950.
[40] M. Redlich, A. Gorodnev, Y. Feldmean, I. Kaplan-Ashiri, R. Tenne, N. Fleischer, et al., Friction reduc-
tion and wear resistance of electro-co-deposited inorganic fullerene-like WS
2
coating for improved
orthodontic stainless steel wires, J. Mater. Res. 23 (2008) 2909
2915.
[41] M. Redlich, Y. Mayer, D. Harari, I. Lewinstein, In vitro study of frictional forces during sliding
mechanics of “reduced-friction” brackets, Am. J. Orthod. Dentofacial Orthop. 124 (2003) 69
73.
[42] (a) L. Cizaire, B. Vacher, T. Le Mogne, J.M. Martin, L. Rapoport, A. Margolin, et al., Mechanisms of
ultra-low friction by hollow inorganic fullerene-like MoS
2
nanoparticles, Surf. Coat. Technol. 160
(2002) 282
287. (b) L. Joly-Pottuz, F. Dassenoy, M. Belin, B. Vacher, J.M. Martin, N. Fleischer,
Ultralow-friction and wear properties of IF-WS
2
under boundary lubrication, Tribol. Lett. 18 (2005)
477
485.
[43] N. Reznikov, G. Har-Zion, Y. Abed, I. Barkana, M. Redlich, Measurement of friction forces between
stainless steel wires and “reduced friction” self-ligating brackets, Am. J. Orthod. Dentofacial Orthop.
138 (2010) 330
338.
[44] N. Reznikov, G. Har-Zion, Y. Abed, I. Barkana, M. Redlich, Influence of friction resistance on
superelastic properties of initial NiTi wires in “reduced friction” and conventional bracket systems,
J. Dent. Biomech. (2010) 613142.
[45] S. Singh, H.S. Nalwa, Nanotechnology and health safety—toxicity and risk assessment of nanostructure
materials on human health, J. Nanosci. Nanotech. 7 (2007) 3048
3070.
[46] D.F. Williams, On the mechanism of biocompatibility, Biomaterial 29 (2008) 2941
2953.
[47] H. Tsabari, Inorganic fullerene-like nano-spheres (IF-WS
2
): acute oral toxicity, acute toxic class method
in the rat, Final report, Batch no. HP6, Harlan Biotech, Israel, 2005.
[48] I. Haist, Test for sensitization (local lymph node assay—LLNA) with inorganic fullerene-like WS
2
nanospheres, Project no. 052052, BSL Bioservice, Germany, 2005.
[49] G.E. Moore, Acute inhalation toxicity study in rats
limit
test, Product safety laboratories, Study
no. 18503, Dayton, NJ, 2006.
[50] B. Nachshon, Single dose response acute oral
toxicity in the mouse,
IF-MO (R
e
)S
2,
Batch
2, Harlan Biotech, Israel, 2011.
[51] B. Nachshon, Acute dermal toxicity in mice, IF-MO(R
e
)S
2
, Batch No. 241111
1, Harlan Biotech,
Israel, 2012.
[52] H. Wu, R. Yang, B. Song, Q. Han, J. Li, Y. Zhang, et al., Biocompatible inorganic fullerene-like
molybdenum disulfide nanoparticles produced by pulsed laser ablation in water, ACS Nano 5 (2011)
1276
1281.
[53] E. Goldman, A. Zak, R. Tenne, Y. Neumann, A. Palmon, A.H. Hovav, et al., Biocompatibility examina-
tion of inorganic nanotubes (INT-WS
2
) on A5 salivary gland cell line, NanoIsrael, Third International
Nanotechnology Conference, Poster presentation no. 135, 2012.
no. 200910
