Gamze D. TETİK, Ejebay JUMAGELDİYEVA, Ayşe Ebru TAYYAR

Elektrolif çekim yöntemi ile β-arbutin içeren nanolifli tekstil yüzeyi üretimi

Bu çalışmada, cilt lekeleri azaltıcı etkisi bilinen β-arbutin ilave edilmiş polimer çözeltisinden nanoliflerin elektrolif çekim yöntemi ile üretimi amaçlanmıştır. Bu amaçla %2, %5 ve %10 (w/v) oranlarında β-arbutin, formik asit ile hazırlanmış poliamid 6 çözeltisine ilave edilerek, çözeltilerin elektrolif çekimleri gerçekleştirilmiş ve gerçekleştirilen taramalı elektron mikroskobu (SEM) analizi ile optimum elektrolif çekim parametreleri belirlenmeye çalışılmıştır. SEM görüntüleri, en düzgün morfolojili nanoliflerin %2 (w/v)’lik β-arbutin içeren çözelti ile elde edilebildiğini göstermiştir. %2 (w/v) konsantrasyon değeri ile çalışılırken denenen 3 farklı voltajdan 30 kV’un en iyi sonucu verdiği gözlemlenmiştir. Ortalama lif çapları için gerçekleştirilen istatistiksel analizde, nanoliflerin çaplarının konsantrasyon değerlerine göre değiştiği belirlenmiştir. Bu çalışmada, cilt lekeleri azaltıcı madde içeren nanolifli tekstil yüzeylerinin hafif ve oldukça ince formda bir kozmetik tekstil ürünü olarak kullanılmak üzere elektrolif çekim yöntemi ile üretilebileceği gözler önüne serilmiştir.

Anahtar Kelimeler:

Nanolif, Elektrolif çekim, Kozmetik tekstil, Nanolifli tekstil yüzeyi, Cilt lekeler

Production of nanofiber textile surfaces with β-arbutin via electrospinning method

In this study, it is aimed to produce nanofibers via electrospinning method using a polymer solution doped with β-arbutin, which is known as an agent reducing skin blemishes. For this purpose, β-arbutin was added to the polyamide 6/formic acid solution with chosen concentrations as 2%, 5%, and 10% (w/v). After preliminary electrospinning process, scanning electron microscope (SEM) analysis was performed to determine the optimum spinning parameters. The SEM images presented that nanofibers with uniform morphology were obtained with the 2% (w/v) β-arbutin concentration. Three different voltages were applied for 2% (w/v) β-arbutin added solution and the best morphology was obtained by 30 kV voltages. According to the statistical analysis performed, it was seen that the mean diameters of nanofibers varied due to the β-arbutin concentration. In this study, it has been demonstrated that the thin and light nanofiber textile surfaces containing skin blemishes reducing agent can be produced via electrospinning method to be used as a cosmetic textile product.

Keywords:

Nanofibers Electrospinning, Cosmetic textile, Nanofiber, Textile surface, Skin blemishes,

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