Elektronik tekstillerde iletken mürekkep uygulamaları
Year 2019,
Volume: 25 Issue: 7, 794 - 804, 26.12.2019
İbrahim Üner
,
Banu Hatice Gürcüm
Abstract
Bu araştırmanın amacı elektronik tekstil uygulamalarında kullanılan baskı yöntemlerinin incelenmesi ve bu baskı yöntemlerinde kullanılan farklı özelliklere sahip iletken mürekkeplerin işlem şartlarının, avantaj ve dezavantajlarının incelenmesidir. Araştırmada, iletken mürekkepler ile ilgili bir kavramsal çerçeve oluşturularak elektronik tekstiller alanında kullanımı ve önemi literatür açısından incelenmiştir. Çalışmada, gümüş içerikli iletken mürekkeplerin esnek malzemeler üzerine basılmasıyla, radyo frekansı tanımlama, elektromiyografi ve çeşitli sensör tasarımlarının yapıldığı görülmüştür. Serigrafi ve inkjet baskı teknikleri en çok kullanılan baskı teknikleri olarak değerlendirilmiştir.
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Conductive ink applications on electronic textiles
Year 2019,
Volume: 25 Issue: 7, 794 - 804, 26.12.2019
İbrahim Üner
,
Banu Hatice Gürcüm
Abstract
This study was conducted to investigate printing techniques used in electronic textile applications and to examine the application conditions, advantages and disadvantages of the conductive inks used in these printing processes. This research is a conceptual framework designed to examine conductive inks within the scope of electronic textiles and their importance. In the study, it is seen that by printing of silver doped conductive ink on flexible materials, radio frequency identification (RFID, electromyography (EMG) and variety of sensors are designed. It was evaluated that screen printing and inkjet printing techniques are most familiar printing applications.
References
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- Zielke D, Gogolin R, Halbich MU, Marquardt C, Lövenich W, Sauer R, Schmidt J. “Large-Area PEDOT: PSS/C-Si heterojunction solar cells with screen-printed metal contacts”. Solar RRL, 2(3) 1-6, 2018.
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- Dearden AL, Smith PJ, Shin DY, Reis N, Derby B, O’brien P. “A low curing temperature silver ink for use in ink-jet printing and subsequent production of conductive tracks”. Macromolecular Rapid Communications, 26, 315-318, 2004.
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- Cheng C. Li j, Shi T, Yu X, Fan J, Liao G, Li X, Cheng S, Zhoung Y, Tang Z. “A novel method of synthesizing antioxidative copper nanoparticles for high performance conductive ink”. Journal of Material Science Materials in Electronics, 28(18), 13556-13564, 2017.
- Kumar J, Basu B, Talukdar FA, Nandi A. “Graphene-Based wideband antenna for aeronautical radio-navigation applications”. Journal of Electromagnetic Waves and Applications, 5071(11), 1-9, 2017.
- Kela L., Auvinen A, Tapper U, Hokkinen J. "Metallic nanoparticles for conductive inks". Congreso Internacional De Metalurgia Y Materiales Sam-Conamet/Iberomat/Materia, Santa Fe, Argentina, 21-24 October 2014.
- Yu D, Wang Z, Wang W, Jiang Z. “Low temperature sintering nano-silver conductive ink printed on cotton fabric as printed electronics”. Progress in Organic Coatings, 101, 604-611, 2016.
- Lee JW, Han J, Lee DS, Bae S, Lee SH, Lee SK, Moon BJ, Choi CJ, Wang G, Kim TW. “2d single-crystalline copper nanoplates as a conductive filler for electronic ink applications”. Small, 14(8), 1-7, 2018.
- Ye S, Stewart IE, Chen Z, Li B, Rathmell AR, Wiley BJ. “How copper nanowires grow and how to control their properties”. Accounts of Chemical Research, 49(3), 442-451, 2016.
- Wei C, Liu Q. “Shape-, Size-, and density-tunable synthesis and optical properties of copper nanoparticles”. Crystengcomm, 19(24), 3254-3262, 2017.
- Kuroda K, Nakako H, Inada M, Noudou T, Kumashiro Y. “Development of copper materials and processing for printed electronics”. The Japan Institute of Electronics Packaging, 5(1), 20-25, 2012.
- Patil SA, Ryu CH, Kim H.S. “Synthesis and characterization of copper nanoparticles (Cu-Nps) using rongalite as reducing agent and photonic sintering of Cu-Nps ink for printed electronics”. International Journal of Precision Engineering and Manufacturing, 5(2) 239-245, 2018.
- Khan Y, Pavinatto FJ, Liln MC, Liao A, Swisher SL, Mann K, Subramanian K, Maharbiz MM, Arias AC. “Inkjet-Printed flexible gold electrode arrays for bioelectronic interfaces”. Advance Functional Material, 26(7), 1004-1013, 2016.
- Phillips C, Al-Ahmadi A, Potts SJ, Claypole T, Deganello D, “The effect of graphite and carbon black ratios on conductive ink performance”. Journal of Material Science, 52(16), 9520-9530, 2017.
- Yang L, Orecchin G, Shaker G, Lee H, Tentzeris MM. “Battery-Free rfid-enabled wireless sensors”. MTT-S International Microwave Symposium, Anaheim, CA, USA, 23-28 May 2010.
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- Methode Electronics, “Digital printable nano-ink technology inks formulated for critical electronic applications”. USA Chicago, material raport, 2017.
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