Biomedical Engineering Reference
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[16] K. Van Landuyt, J. Snauwaert, J. De Munck, M. Peumans, Y. Yoshida, A. Poitevin, et al., Systematic
review of the chemical composition of contemporary dental adhesives, Biomaterials 28 (2007)
3757 3785.
[17] A. Takahashi, Y. Sato, S. Uno, P. Pereira, H. Sano, Effect of mechanical properties of adhesive resin on
bond strength to dentin, Dent. Mater. 18 (2002) 263
268.
[18] H. Honmoto, Study on light cured composite resins—effect of filler contents in the bonding agent on the
tensile bond strength to enamel, Nihon. Univ. Dent. J. 65 (1991) 246 257.
[19] M. Miyazak, S. Ando, K. Hinoura, H. Onose, B. Moore, Influence of filler addition to bonding agents on
shear bond strength to bovine dentin, Dent. Mater. 11 (1995) 234 238.
[20] M. Conde, C. Zanchi, S. Junior, N. Carreno, F. Ogliari, E. Piva, Nanofiller loading level: influence on
selected properties of an adhesive resin, J. Dent. 37 (2009) 331 335.
[21] F. El-Askary, R. van Noort, The effect of airy-drying pressure and distance on the microtensile bond
strength of a self-etching adhesive, J. Adhes. Dent. 11 (2011) 135 147.
[22] K. Ikemora, F. Tay, Y. Kouro, T. Endo, M. Yoshiyama, K. Miyai, et al., Optimizing filler content of an
adhesive containing pre-reacted glass ionomer fillers, Dent. Mater. 19 (2003) 137 146.
[23] H. Schulz, B. Schimmoeller, S. Pratsinis, U. Salz, T. Bock, Radiopaque dental adhesives: dispersion of
flame-made Ta2O5/SiO2 nanoparticles in methacrylic matrices, J. Dent. 36 (2008) 579 587.
[24] Y. Yoshida, B. Van Meerbeek, Y. Nakayama, J. Snauwaert, L. Hellemans, P. Lambrechts, et al.,
Evidence of chemical bonding at biomaterial-hard tissue interfaces, J. Dent. Res. 79 (2000) 709 714.
[25] Y. Zhang, Y. Wang, Hydroxyapatite effect on photopolymerization of self-etching adhesives with differ-
ent aggressiveness, J. Dent. 40 (2012) 564 570.
[26] Y. Zhang, Y. Wang, The effect of hydroxyapatite presence on the degree of conversion and polymeriza-
tion rate in a model self-etching adhesive, Dent. Mater. 28 (2010) 237 244.
[27] M. Shojai, M. Atai, A. Nodehi, L. Khanlarb, Hydroxyapatite nanorods as novel fillers for improving the
properties of dental adhesives: synthesis and application, Dent. Mater. 26 (2010) 471 482.
[28] J. Sun, A. Forster, P. Johnson, N. Eidelman, G. Quinn, G. Schumacher, et al., Improving performance of
dental resins by adding titaniumdioxide nanoparticles, Dent. Mater. 27 (2011) 972 982.
[29] M. Atai, L. Solhi, A. Nodehi, S. Mirabedini, S. Kasraei, K. Akbari, et al., PMMA-grafted nanoclay as
novel filler for dental adhesives, Dent. Mater. 25 (2009) 339
347.
[30] L. Solhi, M. Atai, A. Nodehi, M. Imani, A. Ghaemi, K. Khosravi, Poly(acrylic acid) grafted montmoril-
lonite as novel fillers for dental adhesives: synthesis, characterization and properties of the adhesive,
Dent. Mater. 28 (2012) 369 377.
[31] F. El-Askary, M. Nassif, Bonding nano-filled resin modified glass ionomer to dentin using different self
etch adhesives, Oper. Dent. 36 (2011) 413 421.
[32] E. Coutinho, M. Cardoso, J. De Munck, A. Neves, K. Van Landuyt, A. Poitevin, et al., Bonding effec-
tiveness and interfacial characterization of a nano-filled resin-modified glass-ionomer, Dent. Mater.
25 (2009) 1347 1357.
[33] H. Sano, T. Shono, T. Takatsu, H. Hosoda, Microporous dentin zone beneath resin-impregnated layer,
Oper. Dent. 19 (1994) 59 64.
[34] H. Sano, T. Takatsu, B. Ciucchi, A. Herner, W. Mattews, D. Pashley, Nanoleakage: leakage within the
hybrid layer, Oper. Dent. 20 (1995) 18 25.
[35] H. Sano, M. Yoshiyama, S. Ebisu, M. Burrow, T. Takatsu, B. Ciucchi, et al., Comparative SEM and
TEM observations of nanoleakage within the hybrid layer, Oper. Dent. 20 (1995) 160 167.
[36] H. Li, M. Burrow, M. Tyas, Nanoleakage patterns of four dentin bonding systems, Dent. Mater. 16
(2000) 48 56.
[37] T. Pioch, H. Staehle, H. Duschner, F. Godoy, Nanoleakage at the composite dentin interface: a review,
Am. J. Dent. 14 (2001) 252 258.
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