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http://dx.doi.org/10.5012/bkcs.2009.30.10.2227

Synthesis of Novel Polythiol for Plastic Optical Lens and its Ophthalmic Lens  

Jang, Dong-Gyu (Department of Chemistry, College of Life Science and Nanotechnology, Hannam University)
Roh, Soo-Gyun (Optical Material Institute, Shin Dae Specialties Co., Ltd)
Kim, Jong-Hyo (Optical Material Institute, Shin Dae Specialties Co., Ltd)
Jin, Wen-Yi (Optical Material Institute, Shin Dae Specialties Co., Ltd)
Seo, Jin-Moo (Optical Material Institute, Shin Dae Specialties Co., Ltd)
Kwon, Myeong-Ja (Department of Chemistry, College of Life Science and Nanotechnology, Hannam University)
Lee, Soo-Min (Department of Chemistry, College of Life Science and Nanotechnology, Hannam University)
Publication Information
Bulletin of the Korean Chemical Society / v.30, no.10, 2009 , pp. 2227-2232 More about this Journal
Abstract
Novel polythiol materials of urethane lens series for plastic optical lens were synthesized from polyol materials via thioisouronium of thiourea with c-HCl in refluxing aqueous solution, in which polythiol material was carried out from hydrolysis of thioisouronium by ammonia water. Their structure properties were identified by EA, EI-MS, FT-IR, $^1H\;and\;^{13}C$ NMR spectroscopies and TGA. Their ophthalmic lenses as polythiourethane material were prepared by thermal curing to an injected glass mold using the evenly solutions of diisocyanates series (TDI, XDI, HDI or IPDI) with polythiols. Polythiourethane shows that the strong stretching mode for SH group of polythiol disappeared in FT-IR spectra after thermosetting polymerization. Thermal deformation starting temperature of ophthalmic lenses was determined by TMA. Ophthalmic lenses made from characteristic polythiol and diisocyanate series have transparency, colorless and good impact strength, in which thermal resistance and impact strength of ophthalmic lenses were influenced by diisocyanate series. Physical properties of ophthalmic lens have contrast thermal resistance with impact strength. The property of thermal resistance and impact strength for respective ophthalmic lenses was examined by TMA and drop ball test.
Keywords
Plastic optical lens; Polythiol; olythiourethane; efractive index; Abbe’s number;
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