Öz
Kaynakça
- 1. Promphet, N., Rattanawaleedirojn, P., Siralertmukul, K., Soatthiyanon, N., Potiyaraj, P., Thanawattano, C., Hinestroza, J.P., Rodthongkum, N., (2019), Non-invasive textile based colorimetric sensor for the simultaneous detection of sweat pH and lactate, Talanta, 192, 424-430.
- 2. Pávai, M., Orosz, E. & Paszternák, A., (2016), Smartphone-Based Extension of the Curcumin/Cellophane pH Sensing Method, Food Analytical Methods, 9, 1046-1052.
- 3. De Clerck, K., Geltmeyer, J., Steyaert, I., & Van der Schueren, L. (2012), Halochromic textile materials as innovative pH-sensors, Advances in Science and Technology, 80, 47-52.
- 4. Choi, M-Y., Lee, M., Kim, J-H., Kim, S., Choi, J., So, J-H., Koo, H-J., (2022), A fully textile-based skin pH sensor, Journal of Industrial Textiles, 51, 1, 441S-457S.
- 5. Hewlings, S.J., Kalman, D.S., (2017), Curcumin: A Review of Its Effects on Human Health, Foods, 6, 10, 92.
- All references were included to the article file.
Öz
In this study, pH-sensitive textile systems are developed for use in detecting alkaline media variations. The product is designed based on the surface functionalization of cotton fabric by semi-porous microcapsules containing curcumin. The capsules synthesized by interfacial polymerization from MDI and xylitol serve as micro-reactors where a modification of the chemical form of curcumin takes place, allowing observation of a change of color. This change of color is linked to the acidity constant of this molecule. The objective is also to correlate the visual observation to an evaluation of the color code via image capture by a smartphone of the textile structure and simplified processing of the image color. The analyses have shown that the product obtained is well-sensitive to pH variations and easy to use.
Anahtar Kelimeler
Curcumin microencapsulation chemical grafting smart textile pH sensor
Kaynakça
- 1. Promphet, N., Rattanawaleedirojn, P., Siralertmukul, K., Soatthiyanon, N., Potiyaraj, P., Thanawattano, C., Hinestroza, J.P., Rodthongkum, N., (2019), Non-invasive textile based colorimetric sensor for the simultaneous detection of sweat pH and lactate, Talanta, 192, 424-430.
- 2. Pávai, M., Orosz, E. & Paszternák, A., (2016), Smartphone-Based Extension of the Curcumin/Cellophane pH Sensing Method, Food Analytical Methods, 9, 1046-1052.
- 3. De Clerck, K., Geltmeyer, J., Steyaert, I., & Van der Schueren, L. (2012), Halochromic textile materials as innovative pH-sensors, Advances in Science and Technology, 80, 47-52.
- 4. Choi, M-Y., Lee, M., Kim, J-H., Kim, S., Choi, J., So, J-H., Koo, H-J., (2022), A fully textile-based skin pH sensor, Journal of Industrial Textiles, 51, 1, 441S-457S.
- 5. Hewlings, S.J., Kalman, D.S., (2017), Curcumin: A Review of Its Effects on Human Health, Foods, 6, 10, 92.
- All references were included to the article file.
Ayrıntılar
| Birincil Dil | İngilizce |
|---|---|
| Konular | Tekstil Bilimi |
| Bölüm | Makaleler |
| Yazarlar | |
| Yayımlanma Tarihi | 31 Aralık 2023 |
| Yayımlandığı Sayı | Yıl 2023 Cilt: 30 Sayı: 132 |