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Fonksiyonel SEBS Nanofiberlerinin Elektro Çekim İle Üretim Ve Analizi

Year 2018, Volume: 26 Issue: 2, 40 - 46, 31.05.2018
https://doi.org/10.31796/ogummf.329811

Abstract

Termoplastik elastomerler (TPE), hızlı prototipleme sayesinde, araştırmacılara yumuşak ve jöle benzeri yapılardan sert ve rijit malzemelere kadar geniş bir tasarım imkânı sağlayabilme
kapasitesine sahiptir. Bu bağlamda, poli(stiren-b-(etilen-kobütilen)-b-stiren) (SEBS) triblok kopolimerleri birçok farklı olumlu özelliklere sahiptir ve farklı uygulamalar için cihazların tasarımı ve gereksinimleri düşünüldüğünde çok umut vericidir. SEBS triblock kopolimerinin termoplastik ve elastomerik özelliklerinin kombinasyonu büyük ölçekli malzemelerin üretiminde potansiyel malzemeden biridir. Bu çalışmada, elektro çekimin yararlarından faydalınarak SEBS triblock kopolimerden ortalama çapları 286±93 nm olan yüksek elastik ve fonksiyonel nanofiberler bildiğimiz kadarıyla literatüre göre ilk defa üretilmiştir. Elde edilen bu fonksiyonel elektrospan nanofiberlerinin yakın gelecekte tıbbi ve su arıtımı uygulamalarında yaygın olarak kullanılacağına inanıyoruz.

References

  • Cadafalch Gazquez, G., Smulders, V., Veldhuis, S. A., Wieringa, P., Moroni, L., Boukamp, B. A., & ten Elshof, J. E. (2017). Influence of Solution Properties and Process Parameters on the Formation and Morphology of YSZ and NiO Ceramic Nanofibers by Electrospinning. Nanomaterials, 7(1), 16.
  • Deitzel, J. M., Kleinmeyer, J., Harris, D. E. A., & Tan, N. B. (2001). The effect of processing variables on the morphology of electrospun nanofibers and textiles. Polymer, 42(1), 261-272.
  • Ismail, S. M. R. S., Chatterjee, T., & Naskar, K. (2017). Superior heat‐resistant and oil‐resistant blends based on dynamically vulcanized hydrogenated acrylonitrile butadiene rubber and polyamide 12. Polymers for Advanced Technologies, 28(6), 665-678.
  • Latko, P., Bielecki, M., Kozera, R., & Boczkowska, A. (2017). Relationship between processing and electrical properties in SEBS/CNT nanocomposites. Journal of Elastomers & Plastics, 49(4), 356-367.
  • Li, X., Tang, S., Zhou, X., Gu, S., Huang, K., Xu, J., ... & Li, Y. (2017). Synergistic effect of amino silane functional montmorillonite on intumescent flame‐retarded SEBS and its mechanism. Journal of Applied Polymer Science, 134(24).44953(1-11)
  • Li, X., Luan, S., Shi, H., Yang, H., Song, L., Jin, J., ... & Stagnaro, P. (2013). Improved biocompatibility of poly (styrene-b-(ethylene-co-butylene)-b-styrene) elastomer by a surface graft polymerization of hyaluronic acid. Colloids and Surfaces B: Biointerfaces, 102, 210-217.
  • Rungswang, W., Kotaki, M., Shimojima, T., Kimura, G., Sakurai, S., & Chirachanchai, S. (2011). Existence of microdomain orientation in thermoplastic elastomer through a case study of SEBS electrospun fibers. Polymer, 52(3), 844-853.
  • Subbiah, T., Bhat, G. S., Tock, R. W., Parameswaran, S., & Ramkumar, S. S. (2005). Electrospinning of nanofibers. Journal of Applied Polymer Science, 96(2), 557-569.
  • Shi, Q., Xu, X., Fan, Q., Hou, J., Ye, W., & Yin, J. (2015). Construction of d-α-tocopheryl polyethylene glycol succinate/PEO core–shell nanofibers on a blood-contacting surface to reduce the hemolysis of preserved erythrocytes. Journal of Materials Chemistry B, 3(10), 2119-2126.
  • Shi, Q., Fan, Q., Ye, W., Hou, J., Wong, S. C., Xu, X., & Yin, J. (2015). Binary release of ascorbic acid and lecithin from core–shell nanofibers on blood-contacting surface for reducing long-term hemolysis of erythrocyte. Colloids and Surfaces B: Biointerfaces, 125, 28-33.
  • White, C. C., Tan, K. T., Hunston, D. L., Nguyen, T., Benatti, D. J., Stanley, D., & Chin, J. W. (2011). Laboratory accelerated and natural weathering of styrene–ethylene–butylene–styrene (SEBS) block copolymer. Polymer degradation and stability, 96(6), 1104-1110.
  • Zong, X., Kim, K., Fang, D., Ran, S., Hsiao, B. S., & Chu, B. (2002). Structure and process relationship of electrospun bioabsorbable nanofiber membranes. Polymer, 43(16), 4403-4412.
  • Zhou, T., Wu, Z., Li, Y., Luo, J., Chen, Z., Xia, J. & Zhang, A. (2010). Order–order, lattice disordering, and order–disorder transition in SEBS studied by two-dimensional correlation infrared spectroscopy. Polymer, 51(18), 4249-4258.
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  • Kozanoğlu, G. S. (2015). Elektrospinning yöntemiyle nanolif üretim teknolojisi (Doctoral dissertation, Fen Bilimleri Enstitüsü).
  • Swatloski, R. P., Barber, P. S., Opichka, T., Bonner, J. R., Gurau, G., Griggs, C. S., & Rogers, R. D. (2013). U.S. Patent Application No. 13/949,501.

PRODUCTION AND ANALYSIS OF FUNCTIONAL SEBS NANOFIBERS BY ELECTROSPINNING

Year 2018, Volume: 26 Issue: 2, 40 - 46, 31.05.2018
https://doi.org/10.31796/ogummf.329811

Abstract

Thermoplastic elastomers (TPE) offers wide design opportunities because of its rapid prototyping that provides researchers with the acquisition of many different material properties from softness and jelly-like properties to hardness and rigidity. In this regard, poly(styrene-b-(ethylene-cobutylene)-b-styrene) (SEBS) triblock copolymer has many positive aspects and is very promising when the design and requirements of devices for different applications are considered. The combination of thermoplastic and elastomeric properties of SEBS triblock copolymer makes it one of the potential materials in the production of large-scale materials. In this study, highly elastic and functional nanofibers from SEBS triblock copolymer with the diameters of 286±93 nm were produced successfully by electrospinning for the first time, to the best of our knowledge. We believe that SEBS-based functional electrospun nanofibers will find widespread applications in medicine and water purification in the near future

References

  • Cadafalch Gazquez, G., Smulders, V., Veldhuis, S. A., Wieringa, P., Moroni, L., Boukamp, B. A., & ten Elshof, J. E. (2017). Influence of Solution Properties and Process Parameters on the Formation and Morphology of YSZ and NiO Ceramic Nanofibers by Electrospinning. Nanomaterials, 7(1), 16.
  • Deitzel, J. M., Kleinmeyer, J., Harris, D. E. A., & Tan, N. B. (2001). The effect of processing variables on the morphology of electrospun nanofibers and textiles. Polymer, 42(1), 261-272.
  • Ismail, S. M. R. S., Chatterjee, T., & Naskar, K. (2017). Superior heat‐resistant and oil‐resistant blends based on dynamically vulcanized hydrogenated acrylonitrile butadiene rubber and polyamide 12. Polymers for Advanced Technologies, 28(6), 665-678.
  • Latko, P., Bielecki, M., Kozera, R., & Boczkowska, A. (2017). Relationship between processing and electrical properties in SEBS/CNT nanocomposites. Journal of Elastomers & Plastics, 49(4), 356-367.
  • Li, X., Tang, S., Zhou, X., Gu, S., Huang, K., Xu, J., ... & Li, Y. (2017). Synergistic effect of amino silane functional montmorillonite on intumescent flame‐retarded SEBS and its mechanism. Journal of Applied Polymer Science, 134(24).44953(1-11)
  • Li, X., Luan, S., Shi, H., Yang, H., Song, L., Jin, J., ... & Stagnaro, P. (2013). Improved biocompatibility of poly (styrene-b-(ethylene-co-butylene)-b-styrene) elastomer by a surface graft polymerization of hyaluronic acid. Colloids and Surfaces B: Biointerfaces, 102, 210-217.
  • Rungswang, W., Kotaki, M., Shimojima, T., Kimura, G., Sakurai, S., & Chirachanchai, S. (2011). Existence of microdomain orientation in thermoplastic elastomer through a case study of SEBS electrospun fibers. Polymer, 52(3), 844-853.
  • Subbiah, T., Bhat, G. S., Tock, R. W., Parameswaran, S., & Ramkumar, S. S. (2005). Electrospinning of nanofibers. Journal of Applied Polymer Science, 96(2), 557-569.
  • Shi, Q., Xu, X., Fan, Q., Hou, J., Ye, W., & Yin, J. (2015). Construction of d-α-tocopheryl polyethylene glycol succinate/PEO core–shell nanofibers on a blood-contacting surface to reduce the hemolysis of preserved erythrocytes. Journal of Materials Chemistry B, 3(10), 2119-2126.
  • Shi, Q., Fan, Q., Ye, W., Hou, J., Wong, S. C., Xu, X., & Yin, J. (2015). Binary release of ascorbic acid and lecithin from core–shell nanofibers on blood-contacting surface for reducing long-term hemolysis of erythrocyte. Colloids and Surfaces B: Biointerfaces, 125, 28-33.
  • White, C. C., Tan, K. T., Hunston, D. L., Nguyen, T., Benatti, D. J., Stanley, D., & Chin, J. W. (2011). Laboratory accelerated and natural weathering of styrene–ethylene–butylene–styrene (SEBS) block copolymer. Polymer degradation and stability, 96(6), 1104-1110.
  • Zong, X., Kim, K., Fang, D., Ran, S., Hsiao, B. S., & Chu, B. (2002). Structure and process relationship of electrospun bioabsorbable nanofiber membranes. Polymer, 43(16), 4403-4412.
  • Zhou, T., Wu, Z., Li, Y., Luo, J., Chen, Z., Xia, J. & Zhang, A. (2010). Order–order, lattice disordering, and order–disorder transition in SEBS studied by two-dimensional correlation infrared spectroscopy. Polymer, 51(18), 4249-4258.
  • Ramakrishna, S., Fujihara, K., Teo, W. E., Lim, T. C., & Ma, Z. An introduction to electrospinning and nanofibers. (2005). Singapura: World Scientific Publishing Company.
  • Kozanoğlu, G. S. (2015). Elektrospinning yöntemiyle nanolif üretim teknolojisi (Doctoral dissertation, Fen Bilimleri Enstitüsü).
  • Swatloski, R. P., Barber, P. S., Opichka, T., Bonner, J. R., Gurau, G., Griggs, C. S., & Rogers, R. D. (2013). U.S. Patent Application No. 13/949,501.
There are 16 citations in total.

Details

Primary Language English
Subjects Material Production Technologies
Journal Section Research Articles
Authors

Huseyin Avci

Esra Akkulak This is me

Hazal Gergeroglu

Hamed Ghorbanpoor

Bedri Baksan

Fatma Doğan Güzel This is me

Publication Date May 31, 2018
Acceptance Date December 20, 2017
Published in Issue Year 2018 Volume: 26 Issue: 2

Cite

APA Avci, H., Akkulak, E., Gergeroglu, H., Ghorbanpoor, H., et al. (2018). PRODUCTION AND ANALYSIS OF FUNCTIONAL SEBS NANOFIBERS BY ELECTROSPINNING. Eskişehir Osmangazi Üniversitesi Mühendislik Ve Mimarlık Fakültesi Dergisi, 26(2), 40-46. https://doi.org/10.31796/ogummf.329811
AMA Avci H, Akkulak E, Gergeroglu H, Ghorbanpoor H, Baksan B, Doğan Güzel F. PRODUCTION AND ANALYSIS OF FUNCTIONAL SEBS NANOFIBERS BY ELECTROSPINNING. ESOGÜ Müh Mim Fak Derg. May 2018;26(2):40-46. doi:10.31796/ogummf.329811
Chicago Avci, Huseyin, Esra Akkulak, Hazal Gergeroglu, Hamed Ghorbanpoor, Bedri Baksan, and Fatma Doğan Güzel. “PRODUCTION AND ANALYSIS OF FUNCTIONAL SEBS NANOFIBERS BY ELECTROSPINNING”. Eskişehir Osmangazi Üniversitesi Mühendislik Ve Mimarlık Fakültesi Dergisi 26, no. 2 (May 2018): 40-46. https://doi.org/10.31796/ogummf.329811.
EndNote Avci H, Akkulak E, Gergeroglu H, Ghorbanpoor H, Baksan B, Doğan Güzel F (May 1, 2018) PRODUCTION AND ANALYSIS OF FUNCTIONAL SEBS NANOFIBERS BY ELECTROSPINNING. Eskişehir Osmangazi Üniversitesi Mühendislik ve Mimarlık Fakültesi Dergisi 26 2 40–46.
IEEE H. Avci, E. Akkulak, H. Gergeroglu, H. Ghorbanpoor, B. Baksan, and F. Doğan Güzel, “PRODUCTION AND ANALYSIS OF FUNCTIONAL SEBS NANOFIBERS BY ELECTROSPINNING”, ESOGÜ Müh Mim Fak Derg, vol. 26, no. 2, pp. 40–46, 2018, doi: 10.31796/ogummf.329811.
ISNAD Avci, Huseyin et al. “PRODUCTION AND ANALYSIS OF FUNCTIONAL SEBS NANOFIBERS BY ELECTROSPINNING”. Eskişehir Osmangazi Üniversitesi Mühendislik ve Mimarlık Fakültesi Dergisi 26/2 (May 2018), 40-46. https://doi.org/10.31796/ogummf.329811.
JAMA Avci H, Akkulak E, Gergeroglu H, Ghorbanpoor H, Baksan B, Doğan Güzel F. PRODUCTION AND ANALYSIS OF FUNCTIONAL SEBS NANOFIBERS BY ELECTROSPINNING. ESOGÜ Müh Mim Fak Derg. 2018;26:40–46.
MLA Avci, Huseyin et al. “PRODUCTION AND ANALYSIS OF FUNCTIONAL SEBS NANOFIBERS BY ELECTROSPINNING”. Eskişehir Osmangazi Üniversitesi Mühendislik Ve Mimarlık Fakültesi Dergisi, vol. 26, no. 2, 2018, pp. 40-46, doi:10.31796/ogummf.329811.
Vancouver Avci H, Akkulak E, Gergeroglu H, Ghorbanpoor H, Baksan B, Doğan Güzel F. PRODUCTION AND ANALYSIS OF FUNCTIONAL SEBS NANOFIBERS BY ELECTROSPINNING. ESOGÜ Müh Mim Fak Derg. 2018;26(2):40-6.

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