Research Article
BibTex RIS Cite

PROJECTION OF SCIENCES ONTO TEXTILE AND FASHION: NANO-TECHNOLOGY AND CHARGEABLE FABRIC EXAMPLE

Year 2015, , 20 - 30, 31.03.2015
https://doi.org/10.7216/130075992015229704

Abstract

This proceeding provides readers with an overview of our multidisciplinary approach to technical textile research through reviewing recent preliminary results of an example project aiming at developing super-capacitor fabric structures. The fundamental idea of the project is based on, production of graphene nano-sheets and their application onto textile fabric, growing the oxides of manganese on graphene coating and utilization of the final fabric within a suitable electrolyte as electrode material. Graphene nano-sheet production and characterization methods, application to textile fabric and surface resistance measurements as well as construction of super-capacitor architecture and characterization of the final device capacitance via electro-chemistry are presented.

References

  • Lukowics, P., Kirstein, T., Tröster, G., (2004), Wearable
  • Systems for Health Care Applications, Schattauer Publishers, Methods Archive, vol.43, no.3, pp.232,238. Bonderover, E., Wagner, S., (2004), A woven inverter circuit for e-textile applications, Electron Device Letters, IEEE, vol.25, no.5, pp.295,297.
  • Gualous, H., Louahlia-Gualous, H., Gallay, R., Miraoui, A., (2009),
  • Characterization in Transient State for Industrial Applications, Industry Applications, IEEE Transactions on, vol.45, no.3, pp.1035,1044.
  • Hu, L., Chen, W., et al., (2011), Symmetrical MnO2–Carbon
  • Nanotube–Textile Nanostructures for Wearable Pseudocapacitors with High Mass Loading, ACS Nano, 5 (11), 8904-8913.
  • Pasta, M., La Mantia, F., Hu, L., Deshazer, H., Cui, Y., (2010), Aqueous supercapacitors on conductive cotton,
  • Nano Research, vol.3, no.6, pp.452,458, 10.1007/s12274- 010-0006-8.
  • Chen, S., Zhu, J., Wu, X., Han, Q., Wang. X., (2010), Graphene
  • Oxide−MnO2 Nanocomposites for Supercapacitors, ACS Nano, 4 (5), 2822-2830.
  • Coleman, J.N., et al., (2011), Two-Dimensional Nanosheets
  • Produced by Liquid Exfoliation of Layered Materials, Science, vol.331, no.6017, pp.568,571.
  • Lotya, M., King, P., Khan, U., et al., (2010), High
  • Concentration, Surfactant-Stabilized Graphene Dispersions, ACS Nano, 4(6), 3155-3162.
  • Spectroscopy in graphene, Physics Reports, vol.473, pp. 51, Ferrari, A.C., Meyer, J.C., et al., Raman Spectrum of Graphene and Graphene Layers, Physical Review Letters, vol.97, 187401.
  • Part, S., An. J., et al., Aqueous Suspension and Characterization of Chemically Modified Graphene Sheets, ACS Chem. Mater., 20 (21), 6592-6594.
  • May, J.W., (1969), Platinum surface LEED rings, Surface Science, vol.17, 267-270.
  • Novoselov, K.S., Geim, A.K., et al., (2004), Electric Field
  • Effect in Atomically Thin Carbon Films, Science, vol.306, no.5696, pp.666,669.
  • Zhu, Y., Murali, S., et al., (2010), Graphene and Graphene
  • Oxide: Synthesis, Properties, and Applications, Advenced Materials, 10.1002/adma.201001068.
  • Wu, M., Snook, G.A., et al., (2004), Redox deposition of manganese oxide on graphite for supercapacitors,
  • Electrochemistry Communications, 499-504. Yu, G., Hu, L., et al., (2011), Solution-Processed
  • Graphene/MnO2 Nanostructured Textiles for High- Performance Electrochemical Capacitors, ACS Publications, vol.11, pp.2905,2911.
  • Chen, S., Zhu, J., Wu, X., Han, Q., Wang. X., (2010),
  • Graphene Oxide−MnO2 Nanocomposites for Supercapacitors, ACS Nano, 4 (5), 2822-2830
  • Winter, M., and Brodd, R.J., (2004), What are Batteries,
  • Fuel Cells, and Supercapacitors, Chemical Reviews, 104 (10), pp.4245,4270.
  • Hummers, Jr., William, S., (1957), Preparation of Grafitic Acit, Patent, US 2.798.878.

TEMEL BİLİMLERİN TEKSTİL VE MODA ÜZERİNE İZDÜŞÜMÜ: NANO-TEKNOLOJİ VE ŞARJ EDİLEBİLİR KUMAŞ ÖRNEĞİ

Year 2015, , 20 - 30, 31.03.2015
https://doi.org/10.7216/130075992015229704

Abstract

Bu çalışma, araştırma grubumuzun teknik tekstile olan çok-disiplinli yaklaşımını, elektriksel olarak doldurulabilir kumaş geliştirme proje örneği üzerinden sunacak ve projenin son durumunu, verilerle destekleyerek aktaracaktır. Bahsi geçen proje grafen nano-yüzey üretimi, tekstil kumaşını oluşturan elyafın grafen nanoyüzeyler ile kaplanması ve bunların üzerinde manganez elementinin oksitlerinin büyütülmesi ile uygun bir elektrolit içinde elektrot malzemesi olarak kullanılması fikrine dayalı olarak kurgulanmıştır. Bu çalışma, grafen nano-yüzey üretimi ve karakterizasyonu, kumaşa uygulanması ve kumaşın yüzey iletkenliğinin ölçülmesi, üstün-sığa mimarisinin oluşturulması ve elektro-kimyasal karakterizasyon ile sığanın ölçülmesi ayrıntılarını aktaracaktır

References

  • Lukowics, P., Kirstein, T., Tröster, G., (2004), Wearable
  • Systems for Health Care Applications, Schattauer Publishers, Methods Archive, vol.43, no.3, pp.232,238. Bonderover, E., Wagner, S., (2004), A woven inverter circuit for e-textile applications, Electron Device Letters, IEEE, vol.25, no.5, pp.295,297.
  • Gualous, H., Louahlia-Gualous, H., Gallay, R., Miraoui, A., (2009),
  • Characterization in Transient State for Industrial Applications, Industry Applications, IEEE Transactions on, vol.45, no.3, pp.1035,1044.
  • Hu, L., Chen, W., et al., (2011), Symmetrical MnO2–Carbon
  • Nanotube–Textile Nanostructures for Wearable Pseudocapacitors with High Mass Loading, ACS Nano, 5 (11), 8904-8913.
  • Pasta, M., La Mantia, F., Hu, L., Deshazer, H., Cui, Y., (2010), Aqueous supercapacitors on conductive cotton,
  • Nano Research, vol.3, no.6, pp.452,458, 10.1007/s12274- 010-0006-8.
  • Chen, S., Zhu, J., Wu, X., Han, Q., Wang. X., (2010), Graphene
  • Oxide−MnO2 Nanocomposites for Supercapacitors, ACS Nano, 4 (5), 2822-2830.
  • Coleman, J.N., et al., (2011), Two-Dimensional Nanosheets
  • Produced by Liquid Exfoliation of Layered Materials, Science, vol.331, no.6017, pp.568,571.
  • Lotya, M., King, P., Khan, U., et al., (2010), High
  • Concentration, Surfactant-Stabilized Graphene Dispersions, ACS Nano, 4(6), 3155-3162.
  • Spectroscopy in graphene, Physics Reports, vol.473, pp. 51, Ferrari, A.C., Meyer, J.C., et al., Raman Spectrum of Graphene and Graphene Layers, Physical Review Letters, vol.97, 187401.
  • Part, S., An. J., et al., Aqueous Suspension and Characterization of Chemically Modified Graphene Sheets, ACS Chem. Mater., 20 (21), 6592-6594.
  • May, J.W., (1969), Platinum surface LEED rings, Surface Science, vol.17, 267-270.
  • Novoselov, K.S., Geim, A.K., et al., (2004), Electric Field
  • Effect in Atomically Thin Carbon Films, Science, vol.306, no.5696, pp.666,669.
  • Zhu, Y., Murali, S., et al., (2010), Graphene and Graphene
  • Oxide: Synthesis, Properties, and Applications, Advenced Materials, 10.1002/adma.201001068.
  • Wu, M., Snook, G.A., et al., (2004), Redox deposition of manganese oxide on graphite for supercapacitors,
  • Electrochemistry Communications, 499-504. Yu, G., Hu, L., et al., (2011), Solution-Processed
  • Graphene/MnO2 Nanostructured Textiles for High- Performance Electrochemical Capacitors, ACS Publications, vol.11, pp.2905,2911.
  • Chen, S., Zhu, J., Wu, X., Han, Q., Wang. X., (2010),
  • Graphene Oxide−MnO2 Nanocomposites for Supercapacitors, ACS Nano, 4 (5), 2822-2830
  • Winter, M., and Brodd, R.J., (2004), What are Batteries,
  • Fuel Cells, and Supercapacitors, Chemical Reviews, 104 (10), pp.4245,4270.
  • Hummers, Jr., William, S., (1957), Preparation of Grafitic Acit, Patent, US 2.798.878.
There are 29 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Articles
Authors

Özgür Çobanoğlu This is me

Jitka Eryılmaz This is me

Mehmet Ataşalan This is me

Semih Kazanç This is me

Publication Date March 31, 2015
Published in Issue Year 2015

Cite

APA Çobanoğlu, Ö., Eryılmaz, J., Ataşalan, M., Kazanç, S. (2015). PROJECTION OF SCIENCES ONTO TEXTILE AND FASHION: NANO-TECHNOLOGY AND CHARGEABLE FABRIC EXAMPLE. Tekstil Ve Mühendis, 22(97), 20-30. https://doi.org/10.7216/130075992015229704
AMA Çobanoğlu Ö, Eryılmaz J, Ataşalan M, Kazanç S. PROJECTION OF SCIENCES ONTO TEXTILE AND FASHION: NANO-TECHNOLOGY AND CHARGEABLE FABRIC EXAMPLE. Tekstil ve Mühendis. March 2015;22(97):20-30. doi:10.7216/130075992015229704
Chicago Çobanoğlu, Özgür, Jitka Eryılmaz, Mehmet Ataşalan, and Semih Kazanç. “PROJECTION OF SCIENCES ONTO TEXTILE AND FASHION: NANO-TECHNOLOGY AND CHARGEABLE FABRIC EXAMPLE”. Tekstil Ve Mühendis 22, no. 97 (March 2015): 20-30. https://doi.org/10.7216/130075992015229704.
EndNote Çobanoğlu Ö, Eryılmaz J, Ataşalan M, Kazanç S (March 1, 2015) PROJECTION OF SCIENCES ONTO TEXTILE AND FASHION: NANO-TECHNOLOGY AND CHARGEABLE FABRIC EXAMPLE. Tekstil ve Mühendis 22 97 20–30.
IEEE Ö. Çobanoğlu, J. Eryılmaz, M. Ataşalan, and S. Kazanç, “PROJECTION OF SCIENCES ONTO TEXTILE AND FASHION: NANO-TECHNOLOGY AND CHARGEABLE FABRIC EXAMPLE”, Tekstil ve Mühendis, vol. 22, no. 97, pp. 20–30, 2015, doi: 10.7216/130075992015229704.
ISNAD Çobanoğlu, Özgür et al. “PROJECTION OF SCIENCES ONTO TEXTILE AND FASHION: NANO-TECHNOLOGY AND CHARGEABLE FABRIC EXAMPLE”. Tekstil ve Mühendis 22/97 (March 2015), 20-30. https://doi.org/10.7216/130075992015229704.
JAMA Çobanoğlu Ö, Eryılmaz J, Ataşalan M, Kazanç S. PROJECTION OF SCIENCES ONTO TEXTILE AND FASHION: NANO-TECHNOLOGY AND CHARGEABLE FABRIC EXAMPLE. Tekstil ve Mühendis. 2015;22:20–30.
MLA Çobanoğlu, Özgür et al. “PROJECTION OF SCIENCES ONTO TEXTILE AND FASHION: NANO-TECHNOLOGY AND CHARGEABLE FABRIC EXAMPLE”. Tekstil Ve Mühendis, vol. 22, no. 97, 2015, pp. 20-30, doi:10.7216/130075992015229704.
Vancouver Çobanoğlu Ö, Eryılmaz J, Ataşalan M, Kazanç S. PROJECTION OF SCIENCES ONTO TEXTILE AND FASHION: NANO-TECHNOLOGY AND CHARGEABLE FABRIC EXAMPLE. Tekstil ve Mühendis. 2015;22(97):20-3.