과제정보
본 논문은 2023년도 교육부의 재원으로 한국연구재단의 지원을 받아 수행된 지자체-대학 협력기반 지역혁신 사업의 결과입니다. (2021RIS-002)
참고문헌
- J. Liang, L. Li, D. Chen, T. Hajagos, Z. Ren, S. Chou, W. Hu, and Q. Pei, "Intrinsically stretchable and transparent thin-film transistors based on printable silver nanowires, carbon nanotubes and an elastomeric dielectric", Nat. Commun., 6, 7647 (2015).
- T.-B, Song and N. Li, "Emerging transparent conducting electrodes for organic light emitting diodes", Electronics, 3, 190 (2014).
- C. Guillen, and J. Herrero, "ITO/metal/ITO multilayer structures based on Ag and Cu metal films for high-performance transparent electrodes", Sol. Energy Mater Sol. Cells, 92, 938 (2008).
- J. Yoo, Y. Kim, M. Han, S. Choi, K. Song, K. Chung, J. Kim, and J. Kwak, "Silver nanowire-conducting polymer-ITO hybrids for flexible and transparent conductive electrodes with excellent durability", ACS Appl. Mater. Interfaces, 7, 15926 (2015).
- J. Liu, Y. Yi, Y. Zhou, and H. Cai, "Highly stretchable and flexible graphene/ITO hybrid transparent electrode", Nanoscale Res. Lett., 11, 108 (2016).
- C. Yun, J. Han, S. Kim, D. Lim, H. Jung, S. Lee, J. Jang, S. Yoo, K. Leo, and Y. Kim, "Generating semi-metallic conductivity in polymers by laserdriven nanostructural reorganization", Mater. Horiz., 6, 2145 (2019).
- J. Cameron and P. Skabara, "The damaging effects of the acidity in PEDOT:PSS on semiconductor device performance and solutions based on non-acidic alternatives", Mater. Horiz., 7, 1759 (2020).
- M. Girtan and M. Rusu, "Role of ITO and PEDOT:PSS in stability/degradation of polymer: fullerene bulk heterojunctions solar cells", Sol. Energy Mater. Sol., 94, 446 (2010).
- I. Lee, S. Park, Y. Lee, Y. Kim, M. Kang, and C. Yun, "Gradual morphological change in PEDOT: PSS thin films immersed in an aqueous solution", Langmuir, 39, 1600 (2023).
- Y. Lee, H. Kang, S. Gwon, G. Choi, S. Lim, and J. Sun, "A strain-insensitive stretchable electronic conductor: PEDOT:PSS/acrylamide organogels", Adv. Mater., 28, 1636 (2016).
- D. Martin, J. Wu, C. Shaw, Z. King, S. Spanninga, S. Richardson-Burns, J. Hendricks, and J. Yang, "The morphology of poly(3,4-ethylenedioxythiophene)", Polym. Rev., 50, 340 (2010).
- H. Shi, C. Liu, Q. Jiang, and J. Xu, "Effective approaches to improve the electrical conductivity of PEDOT:PSS: A review", Adv. Electron. Mater., 1, 1500017 (2015).
- I. Zozoulenko, A. Singh, S. Singh, V. Gueskine, X. Crispin, and M. Berggren, "Polarons, bipolarons, and absorption spectroscopy of PEDOT", ACS Appl. Polym. Mater., 1, 83 (2019).
- S. Garreau, J. Duvail, and G. Louarn, "Spectroelectrochemical studies of poly(3,4-ethylenedioxythiophene) in aqueous medium", Synth. Metal., 125, 325 (2002).
- E. Toto, S. Botti, S. Laurenzi, and M. Santonicola, "UV-induced modification of PEDOT:PSS-based nanocomposite films investigated by Raman microscopy mapping", Appl. Surf. Sci., 513, 145839 (2020).
- J. Lee, S. Kim, D. Jeong, D. Shin, S. Yoo, H. Seo, and J. Park, "Silver nanowire-based stretchable and transparent electrodes", J. Semicond. Display Tech., 14, 51 (2015).
- J. Spechler, T. Koh, J. Herb B. Rand, and C. Arnold, "A transparent, smooth, thermally robust, conductive polyimide for flexible electronics", Adv. Func. Mater., 25, 7428 (2015).