In this study, a multifunctional ophthalmic lens material with an electromagnetic shielding effect, high oxygen permeability, and high water content is tested, and its applicability is evaluated. Metal oxide nanoparticles are applied to the ophthalmic lens material for vision correction to shield harmful electromagnetic waves; the pyridine group is used to improve the antibacterial effect; and silicone substituted with urethane and acrylate is employed to increase the oxygen permeability and water content. In addition, multifunctional tinted ophthalmic lens materials are studied using lens materials with an excellent antibacterial effect (2,6-difluoropyridine, 2-fluoro-4-pyridinecarboxylic acid) and functional (UV protection, high wettability) lens materials (2,4-dihydroxy benzophenone, 2-hydroxy-4-(methacryloyloxy)benzophenone). To solve problems such as air bubbles generated during the polymerization process for the manufacturing and turbidity of the lens surface, polymerization conditions in which the defect rate is minimized are determined. The results show that the polymerization temperature and time are most appropriate when they are 110 oC and 40 minutes, respectively. The optimum injection amount of the polymerization solution is 350 ms. The turbid phenomenon that appears in lens processing is improved by 10 to 95% according to the test time and conditions.

Abstract
 1. Introduction
 2. Experimental
  2.1 Fabrication and Polymerization Process
  2.2 Improvement of turbidity
 3. Results and Discussion
  3.1 Fabrication and Polymerization Process
 4. Conclusion
 References

• Min-Jae Lee(Department of Optometry & Vision Science, Catholic University of Daegu)
• Kyung-Mun Lee(Devision of Research & Development, Vision Science Co., Ltd,)
• A-Young Sung(Department of Optometry & Vision Science, Catholic University of Daegu) Corresponding author