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  • Structural studies of polymer hydrogel and silicone hydrogel contact lenses by means of positron lifetime spectroscopy methods.

Structural studies of polymer hydrogel and silicone hydrogel contact lenses by means of positron lifetime spectroscopy methods.

Polimery w medycynie (2013-07-03)
Katarzyna Kotynia, Agnieszka Kocela, Jacek Filipecki, Katarzyna Filipecka, Piotr Korzekwa, Edmund Golis
ZUSAMMENFASSUNG

PURPOSE OF JOB: Currently, there isa need to increase comfort and visual acuity man. Simultaneously improving biocompatibility and minimizing the impact of the material on the physiology of the cornea is the primary driving force behind the evolution of materials used in the manufacture of contact lenses. Despite progressive development of modern materials science, there is still the problem of reducing the level of oxygen available to the cornea resulting in pathological changes in the cornea. Therefore, structural studies increases interesting in relating to the amorphous contact lenses polymeric materials. The aim of this work is structural investigation of polymer hydrogel and silicone hydrogel contact lenses made in the technology of PC (Phosphoryl Choline). The study method was used positron lifetime spectroscopy PALS. As a result of the measurements obtained curve describing the dependence of the number of counts of acts of annihilation as a function of time. The study of PALS showed the existence of three components. Component tau1 is responsible for the annihilation of free positrons and the annihilation of electrons vacancy-type point defects. Component tau2 is associated with defects in the volume of grain boundaries formed, dislocations or clusters of vacancies. The results of calculations of mean values positron lifetime samples, showed longtime component tau3 in the spectrum of positron lifetime. Component tau3 is assigned to pick-off annihilation of ortho-positronium o-Ps trapping by free volume and providing information on the geometric parameters of the volume.

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Sigma-Aldrich
Poly(ethylenglycol)-dimethacrylat, average Mn 750, contains 900-1100 ppm MEHQ as inhibitor
Sigma-Aldrich
Poly(ethylenglycol)-dimethacrylat, average Mn 550, contains 80-120 ppm MEHQ as inhibitor, 270-330 ppm BHT as inhibitor
Sigma-Aldrich
Poly(ethylenglycol)-dimethacrylat, average Mn 2000, contains ~1000 ppm MeHQ as stabilizer
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Poly(ethylenglycol)-dimethacrylat, average Mn 6,000, contains 1000 ppm 4-methoxyphenol as inhibitor
Sigma-Aldrich
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Sigma-Aldrich
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