Preparation and characterization of ophthalmic polymers containing silicon nanoparticles

A-Young Sung; Tae-Hun Kim

Korean Journal of Chemical Engineering, Vol.29, No.9, 1272-1278, September, 2012

DOI10.1007/s11814-012-0002-7 Export Citation

Preparation and characterization of ophthalmic polymers containing silicon nanoparticles

A-Young Sung^†, and Tae-Hun Kim¹

Department of Ophthalmic Optics, Sehan University, Jeonnam 526-702, Korea
¹Department of Visual Optics, Baekseok University, Chungnam 330-704, Korea

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HEMA, MMA, NVP, EDGMA, and 3-vinylanisole were copolymerized with Si nanoparticles and silicon 2,3-naphthalocyanine bis (trihexylsilyloxide) for ophthalmic application. The physical, optical, and surface characteristics of the contact lens copolymers were investigated to examine the usefulness of the above nanomaterials as components for contact lenses. The water content and the refractive index were in the range of 26.03-37.61% and 1.435-1.479, respectively. Meanwhile, the tensile strength ranging from 0.156 to 0.802 kgf increased with increasing the addition ratio of 3-vinylanisole. Si nanoparticles reduce spectral transmittance in all wavelengths, whereas for silicon 2,3-naphthalocyanine bis (trihexylsilyloxide) the transmittance of visual light increased but the transmittance of UV and near infrared decreased. High contact angle was observed for contact lenses containing both Si nanopowder and silicon 2,3-naphthalocyanine bis (trihexylsilyloxide). The water content of contact lenses was not significantly affected by the addition of 3-vinylanisole. Nanomaterials such as Si nanoparticles and silicon 2,3-naphthalocyanine bis (trihexylsilyloxide) can be used for manufacturing hydrogel soft contact lenses with UV-blocking capabilities if the intensity and the wettability of the surface are properly controlled.

Keywords:Silicon Nanoparticle;3-Vinylanisole;Wettability;Contact Angle;Antimicrobial Property

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[2] Ye KH, Sung AY, J. Kor. Chem. Soc., 54, 222 (2010)

[3] Ye KH, Kim TH, Kwon YS, Sung AY, J. Kor. Chem.Soc., 54, 228 (2010)

[4] Hart DE, Reindel W, Proskin HM, Mowrey-McKee MF, Optom. Vis. Sci., 70, 185 (1993)

[5] Lim SK, Lee SK, Hwang SH, Kim HY, Macromol.Mater. Eng., 291, 1265 (2006)

[6] Li JX, Wang L, Shenm RL, Xum ZJ, Li P, Wan GJ, Huang N, Surf. Coat. Technol., 201, 8155 (2007)

[7] Rai M, Yadav A, Gade A, Biotechnol. Adv., 27, 76 (2009)

[8] Feng QL, Wu J, Chen GQ, Cui FZ, Kim TN, Kim JO,, J. Biomed. Mater. Res., 52, 662 (2000)

[9] Ye KH, Sung AY, J. Kor. Chem. Soc., 54, 310 (2010)

[10] Trepathi S, Mehrotra GK, Dutta PK, Bull. Mater. Sci., 34, 29 (2011)

[11] Masnick KB, Holden BA, Aust. J. Optom., 55, 481 (1972)

[12] Sheridan M, Shakespeare AR, Contacto., 26, 7 (1982)

[13] Zuclich JA, Health Phys., 56, 671 (1989)

[14] Johar SR, Rawal UM, Jain NK, Vasavada AR, Photochem.Photobiol., 78, 306 (2003)

[15] Wen X, Dagan S, Wysocki VH, Anal. Chem., 79, 434 (2007)

[16] Yousaf M, Lazzouni M, Dyes Pigm., 28, 69 (1995)