An experimental study on production of intelligent textile by using ionocromic materials

Aslıhan Koruyucu

doi:10.35860/iarej.526440

Araştırma Makalesi

Yıl 2019, Cilt: 3 Sayı: 3, 182 - 188, 15.12.2019

Aslıhan Koruyucu

https://doi.org/10.35860/iarej.526440

Öz

Kaynakça

1. Zollinger, H., Color chemistry: syntheses, properties, and applications of organic dyes and pigments. 2003, Switzerland: VHCA and Wiley-VCH, Inc.
2. Kim, S.H., editor. 2006, Functional dyes. Elsevier.
3. Bamfield, P. and Hutchings M.G., Chromic phenomena: technological applications of colour chemistry. 2010, UK: Royal Society of Chemistry.
4. Kirschning, A., Monenschein, H. and Wittenberg, R., Functionalized polymers—emerging versatile tools for solution‐phase chemistry and automated parallel synthesis. Angewandte Chemie International Edition, 2001. 40(4): p. 650-679.
5. Vancoillie G., Pelz S., Holder E., Hoogenboom R., Direct nitroxide mediated (co) polymerization of 4-vinylphenylboronic acid as route towards sugar sensors. Polymer Chemistry, 2012. 3(7): p. 1726-1729.
6. Pietsch, C., Schubert, U.S., and Hoogenboom, R., Aqueous polymeric sensors based on temperature-induced polymer phase transitions and solvatochromic dyes. Chemical Communications, 2011. 47(31): p. 8750-8765.
7. Fournier, D. and Du Prez, F., “Click” chemistry as a promising tool for side-chain functionalization of polyurethanes. Macromolecules, 2008. 41(13): p. 4622-4630.
8. Roy, D., Cambre, J.N. and Sumerlin, B.S., Future perspectives and recent advances in stimuli-responsive materials. Progress in Polymer Science, 2010. 35(1-2), p. 278-301.
9. De Meyer, T., Hemelsoet, K., Van der Schueren, L., Pauwels, E., De Clerck, K., Van Speybroeck, V., Investigating the halochromic properties of azo dyes in an aqueous environment by using a combined experimental and theoretical approach. Chemistry–A European Journal, 2012. 18(26): p. 8120-8129.
10. Makedonski, P., Brandes, M., Grahn, W., Kowalsky, W., Wichern, J., Wiese, S., & Johannes, H.H., Synthesis of new kinds of reactive azo dyes and their application for fibre-optical pH-measurements. Dyes and Pigments, 2004. 61(2): p. 109-119.
11. Trupp, S., Alberti, M., Carofiglio, T., Lubian, E., Lehmann, H., Heuermann, R., Yacoub-George, E., Bock, K., and Mohr, G.J., Development of pH-sensitive indicator dyes for the preparation of micro-patterned optical sensor layers. Sensors and Actuators B: Chemical, 2010. 150(1), p. 206-210.
12. Kuwabara, T., Nakajima, H., Nanasawa, M. and Ueno, A., Color change indicators for molecules using methyl red-modified cyclodextrins. Analytical Chemistry, 1999. 71(14): p. 2844-2849.
13. Van der Schueren, L. and De Clerck, K., The use of pH-indicator dyes for pH-sensitive textile materials. Textile research journal, 2010. 80(7): p. 590-603.
14. De Meyer, T., Hemelsoet, K., Van der Schueren, L., Pauwels, E., De Clerck, K. and Van Speybroeck, V., Investigating the halochromic properties of azo dyes in an aqueous environment by using a combined experimental and theoretical approach. Chemistry–A European Journal, 2012. 18(26): p. 8120-8129.
15. De Meyer, T., Hemelsoet, K., Van Speybroeck, V. and De Clerck, K., Substituent effects on absorption spectra of pH indicators: An experimental and computational study of sulfonphthaleine dyes. Dyes and Pigments, 2014. 102: p. 241-250.
16. Bouas-Laurent, H. and Dürr, H., Organic photochromism (IUPAC technical report). Pure and Applied Chemistry, 2001. 73(4): p. 639-665.
17. Schueren, L.V. and Clerck, K.D., The Use of pH-indicator Dyes for pH-sensitive Textile Materials. Textile Research Journal, 2010. 80(7): p. 590-603.
18. Staneva, D. and Betcheva, R., Synthesis and Functional Properties of New Optical pH Sensor Based on Benzo [de]anthracen-7-one Immobilized on the Viscose. Dyes and Pigments, 2007. 74(1): p. 148-153.
19. De Meyer, T., Steyaert, I., Hemelsoet, K., Hoogenboom, R., Van Speybroeck, V. and De Clerck, K., Halochromic properties of sulfonphthaleine dyes in a textile environment: The influence of substituents. Dyes and Pigments, 2016. 124: p. 249-257.
20. Gautam, R.K., Gautam, P.K., Chattopadhyaya, M.C. and Pandey, J.D., Adsorption of Alizarin Red S onto biosorbent of Lantana camara: kinetic, equilibrium modeling and thermodynamic studies. Proceedings of the National Academy of Sciences, India Section A: Physical Sciences, 2014. 84(4): p. 495-504.
21. Van der Schueren, L. and De Clerck, K., Coloration and application of pH‐sensitive dyes on textile materials. Coloration Technology, 2012. 128(2): p. 82-90.

An experimental study on production of intelligent textile by using ionocromic materials

Yıl 2019, Cilt: 3 Sayı: 3, 182 - 188, 15.12.2019

Aslıhan Koruyucu

https://doi.org/10.35860/iarej.526440

Öz

The
production of an intelligent textile material that changes color under the
influence of pH was researched in this research article. For this purpose,
halochromic dyes were used. In halochromic dyes, bleeding and fastness
problems are encountered after dyeing. In order to solve these problems; the dye is fixed with cationic fixators in the
textile fiber. In this study, a woven nylon fabric was dyed with Alizarin Red S
halochromic dyestuff by conventional dyeing method which was followed by
post-treated by tannic acid/potassium antimony tartarate at different ratios
(1%, 2%, 3%). After dyeing and post-treating, CIELab, K/S, ΔE* values were
measured by spectrophotometer and compared. In order to investigate the effect of halochromics on the post-treated, dyed and post-treated
fabrics were immersed in 5 different solutions prepared by using HCl and NaOH between pH 2 and 10, and the samples
were removed after 1 hour and the color change in the samples was
compared. After the process, the speed of fixation of the dye molecule onto the
fiber was increased.

Corrected by Aslıhan Koruyucu and Ayben Pakolpakçıl

Correction to: An experimental study on production of intelligent textile by using ionochromic materials
International Advanced Researches and Engineering Journal 04(01): 056, 2020

DOI: 10.35860/iarej.686847

Anahtar Kelimeler

Halochromic dyes, pH-indicator, pH-sensor, Textile

Kaynakça

1. Zollinger, H., Color chemistry: syntheses, properties, and applications of organic dyes and pigments. 2003, Switzerland: VHCA and Wiley-VCH, Inc.
2. Kim, S.H., editor. 2006, Functional dyes. Elsevier.
3. Bamfield, P. and Hutchings M.G., Chromic phenomena: technological applications of colour chemistry. 2010, UK: Royal Society of Chemistry.
4. Kirschning, A., Monenschein, H. and Wittenberg, R., Functionalized polymers—emerging versatile tools for solution‐phase chemistry and automated parallel synthesis. Angewandte Chemie International Edition, 2001. 40(4): p. 650-679.
5. Vancoillie G., Pelz S., Holder E., Hoogenboom R., Direct nitroxide mediated (co) polymerization of 4-vinylphenylboronic acid as route towards sugar sensors. Polymer Chemistry, 2012. 3(7): p. 1726-1729.
6. Pietsch, C., Schubert, U.S., and Hoogenboom, R., Aqueous polymeric sensors based on temperature-induced polymer phase transitions and solvatochromic dyes. Chemical Communications, 2011. 47(31): p. 8750-8765.
7. Fournier, D. and Du Prez, F., “Click” chemistry as a promising tool for side-chain functionalization of polyurethanes. Macromolecules, 2008. 41(13): p. 4622-4630.
8. Roy, D., Cambre, J.N. and Sumerlin, B.S., Future perspectives and recent advances in stimuli-responsive materials. Progress in Polymer Science, 2010. 35(1-2), p. 278-301.
9. De Meyer, T., Hemelsoet, K., Van der Schueren, L., Pauwels, E., De Clerck, K., Van Speybroeck, V., Investigating the halochromic properties of azo dyes in an aqueous environment by using a combined experimental and theoretical approach. Chemistry–A European Journal, 2012. 18(26): p. 8120-8129.
10. Makedonski, P., Brandes, M., Grahn, W., Kowalsky, W., Wichern, J., Wiese, S., & Johannes, H.H., Synthesis of new kinds of reactive azo dyes and their application for fibre-optical pH-measurements. Dyes and Pigments, 2004. 61(2): p. 109-119.
11. Trupp, S., Alberti, M., Carofiglio, T., Lubian, E., Lehmann, H., Heuermann, R., Yacoub-George, E., Bock, K., and Mohr, G.J., Development of pH-sensitive indicator dyes for the preparation of micro-patterned optical sensor layers. Sensors and Actuators B: Chemical, 2010. 150(1), p. 206-210.
12. Kuwabara, T., Nakajima, H., Nanasawa, M. and Ueno, A., Color change indicators for molecules using methyl red-modified cyclodextrins. Analytical Chemistry, 1999. 71(14): p. 2844-2849.
13. Van der Schueren, L. and De Clerck, K., The use of pH-indicator dyes for pH-sensitive textile materials. Textile research journal, 2010. 80(7): p. 590-603.
14. De Meyer, T., Hemelsoet, K., Van der Schueren, L., Pauwels, E., De Clerck, K. and Van Speybroeck, V., Investigating the halochromic properties of azo dyes in an aqueous environment by using a combined experimental and theoretical approach. Chemistry–A European Journal, 2012. 18(26): p. 8120-8129.
15. De Meyer, T., Hemelsoet, K., Van Speybroeck, V. and De Clerck, K., Substituent effects on absorption spectra of pH indicators: An experimental and computational study of sulfonphthaleine dyes. Dyes and Pigments, 2014. 102: p. 241-250.
16. Bouas-Laurent, H. and Dürr, H., Organic photochromism (IUPAC technical report). Pure and Applied Chemistry, 2001. 73(4): p. 639-665.
17. Schueren, L.V. and Clerck, K.D., The Use of pH-indicator Dyes for pH-sensitive Textile Materials. Textile Research Journal, 2010. 80(7): p. 590-603.
18. Staneva, D. and Betcheva, R., Synthesis and Functional Properties of New Optical pH Sensor Based on Benzo [de]anthracen-7-one Immobilized on the Viscose. Dyes and Pigments, 2007. 74(1): p. 148-153.
19. De Meyer, T., Steyaert, I., Hemelsoet, K., Hoogenboom, R., Van Speybroeck, V. and De Clerck, K., Halochromic properties of sulfonphthaleine dyes in a textile environment: The influence of substituents. Dyes and Pigments, 2016. 124: p. 249-257.
20. Gautam, R.K., Gautam, P.K., Chattopadhyaya, M.C. and Pandey, J.D., Adsorption of Alizarin Red S onto biosorbent of Lantana camara: kinetic, equilibrium modeling and thermodynamic studies. Proceedings of the National Academy of Sciences, India Section A: Physical Sciences, 2014. 84(4): p. 495-504.
21. Van der Schueren, L. and De Clerck, K., Coloration and application of pH‐sensitive dyes on textile materials. Coloration Technology, 2012. 128(2): p. 82-90.

Toplam 21 adet kaynakça vardır.

Ayrıntılar

Birincil Dil	İngilizce
Konular	Mühendislik
Bölüm	Research Articles
Yazarlar	Aslıhan Koruyucu 0000-0002-8443-5188
Yayımlanma Tarihi	15 Aralık 2019
Gönderilme Tarihi	13 Şubat 2019
Kabul Tarihi	28 Eylül 2019
Yayımlandığı Sayı	Yıl 2019 Cilt: 3 Sayı: 3

Kaynak Göster

APA	Koruyucu, A. (2019). An experimental study on production of intelligent textile by using ionocromic materials. International Advanced Researches and Engineering Journal, 3(3), 182-188. https://doi.org/10.35860/iarej.526440
AMA	Koruyucu A. An experimental study on production of intelligent textile by using ionocromic materials. Int. Adv. Res. Eng. J. Aralık 2019;3(3):182-188. doi:10.35860/iarej.526440
Chicago	Koruyucu, Aslıhan. “An Experimental Study on Production of Intelligent Textile by Using Ionocromic Materials”. International Advanced Researches and Engineering Journal 3, sy. 3 (Aralık 2019): 182-88. https://doi.org/10.35860/iarej.526440.
EndNote	Koruyucu A (01 Aralık 2019) An experimental study on production of intelligent textile by using ionocromic materials. International Advanced Researches and Engineering Journal 3 3 182–188.
IEEE	A. Koruyucu, “An experimental study on production of intelligent textile by using ionocromic materials”, Int. Adv. Res. Eng. J., c. 3, sy. 3, ss. 182–188, 2019, doi: 10.35860/iarej.526440.
ISNAD	Koruyucu, Aslıhan. “An Experimental Study on Production of Intelligent Textile by Using Ionocromic Materials”. International Advanced Researches and Engineering Journal 3/3 (Aralık 2019), 182-188. https://doi.org/10.35860/iarej.526440.
JAMA	Koruyucu A. An experimental study on production of intelligent textile by using ionocromic materials. Int. Adv. Res. Eng. J. 2019;3:182–188.
MLA	Koruyucu, Aslıhan. “An Experimental Study on Production of Intelligent Textile by Using Ionocromic Materials”. International Advanced Researches and Engineering Journal, c. 3, sy. 3, 2019, ss. 182-8, doi:10.35860/iarej.526440.
Vancouver	Koruyucu A. An experimental study on production of intelligent textile by using ionocromic materials. Int. Adv. Res. Eng. J. 2019;3(3):182-8.

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