화학공학소재연구정보센터
로그인 로그아웃 연락처 사이트맵
Polymer(Korea), Vol.37, No.5, 649-655, September, 2013
Export Citation
방사선을 이용한 강화 복합 연료전지막 다공성 지지체용 PTFE-g-PAA 제조 및 특성 연구
Radiolytic Fabrication and Characterization of PTFE-g-PAA as the Supporters for the Reinforced Composite Fuel Cell Membrane
손준용, 박병희, 송주명, 이영무1, 신준화
  • 한국원자력연구원 첨단방사선연구소 공업환경연구부
  • 1한양대학교 공과대학 WCU 에너지공학과
Joon-Yong Sohn, Byeong-Hee Park, Ju-Myung Song, Young-Moo Lee1, and Junhwa Shin
  • Research Division for Industry and Environment, Advanced Radiation Technology Institute, Korea Atomic Energy Research Institute, 29 Geumgu-gil, Jeongeup-si, Jeollabuk-do 580-185, Korea
  • 1WCU Department of Energy Engineering, College of Engineering, Hanyang University, 222 Wangsimni-ro, Seongdong-gu, Seoul 133-791, Korea
E-mail:
초록
방사선 그래프팅 방법을 이용하여 다공성 PTFE 지지체에 친수성 고분자 사슬인 아크릴산 사슬을 도입시켜 강화 복합 연료전지막의 지지체로 사용하기 위한 PTFE 친수화 다공성 지지체를 제조하였고 FTIR을 이용하여 다공성 PTFE에 친수성 고분자가 성공적으로 도입되었음을 확인하였다. 제조된 지지체의 표면 친수화 정도를 관찰하기 위해 접촉각을 측정한 결과, 도입된 친수성 고분자 사슬이 증가할수록 소수성의 PTFE 표면 친수화도가 증가됨을 확인하였다. 또한 제조된 지지체의 물리화학적, 형태학적 특성은 FE-SEM, gurley number, 인장강도를 측정하여 관찰하였다.
In order to use as supporters for the reinforced composite fuel cell membrane, poly(acrylic acid)-grafted porous polytetrafluoroethylenes (PTFEs) were prepared via introduction of poly(acrylic acid) graft chains by a radiation grafting method. FTIR was utilized to confirm the successful introduction of poly(acrylic acid) graft polymer chains into the porous PTFEs. Contact angles were examined to observe the hydrophilicity of the surface of the prepared substrates. The result indicates that the hyrophilicity of the surface in the prepared substrates increases with an increase in the number of hydrophilic polymer chains. FE-SEM, gurley number, and tensile strength were also utilized to characterize the prepared substrates.
Keywords:radiation;grafting;surface modification;porous PTFE;acrylic acid.
  1. Kordesch KV, Simader GR, Fuel Cells and their Applications, VCH Publishers Inc., Wienheim, Germany, Chapter 4. (1996)
  2. Mauritz KA, Moore RB, Chem. Rev., 104(10), 4535 (2004)
  3. Agro S, DeCarmine T, DeFelice S, Thoma L, Annual Progress Report for the DOE Hydrogen Program, 2005, p. 790, US Department of Energy (DOE), website: http://www.hydrogen.energy.gov.
  4. Yang C, Costamagna P, Srinivasan S, Benziger J, Bocarsly AB, J. Power Sources, 103(1), 1 (2001)
  5. Ghassemi H, Ndip G, McGrath JE, Polymer, 45(17), 5855 (2004)
  6. Miyatake K, Watanabe M, Electrochem., 73, 12 (2005)
  7. Di Vona ML, Marani D, D'Epifanio A, Licoccia S, Beurroies I, Denoyel R, Knauth P, J. Membr. Sci., 304(1-2), 76 (2007)
  8. Huh H, Kim DJ, Nam SY, Membrane J., 21, 247 (2011)
  9. Kim DJ, Hwang HY, Nam SY, Membrane J., 21, 389 (2011)
  10. Kim DJ, Nam SY, Membrane J., 22, 155 (2012)
  11. Yoo DJ, Hyun SH, Kim AR, Kumar GG, Nahm KS, Polym. Int., 60, 85 (2011)
  12. Wang L, Yi BL, Zhang HM, Liu YH, Xing DM, Shao ZG, Cai YH, J. Power Sources, 167(1), 47 (2007)
  13. Kim KH, Ahn SY, Oh IH, Ha HY, Hong SA, Kim MS, Lee Y, Lee YC, Electrochim. Acta, 50(2-3), 577 (2004)
  14. Rodgers MP, Berring J, Holdcroft S, Shi ZQ, J. Membr. Sci., 321(1), 100 (2008)
  15. Tezuka T, Tadanaga K, Matsuda A, Hayashi A, Tatsumisago M, Electrochem. Commun., 7, 245 (2005)
  16. Munakata H, Yamamoto D, Kanamura K, Chem. Commun., 31, 3986 (2005)
  17. Nguyen T, Wang X, J. Power Sources, 195(4), 1024 (2010)
  18. Liu FQ, Yi BL, Xing DM, Yu JR, Zhang HM, J. Membr. Sci., 212(1-2), 213 (2003)
  19. Tang HL, Pan M, Wang F, Shen PK, Jiang SP, J. Phys. Chem. B, 111(30), 8684 (2007)
  20. Rodgers MP, Berring J, Holdcroft S, Shi ZQ, J. Membr. Sci., 321(1), 100 (2008)
  21. Tang HL, Wang XE, Pan M, Wang F, J. Membr. Sci., 306(1-2), 298 (2007)
  22. Ahn SY, Lee YC, Ha HY, Hong SA, Oh IH, Electrochim. Acta, 50(2-3), 571 (2004)
  23. YuTL, Lin HL, Shen KS, Huang LN, Chang YC, J. Polym. Res., 11, 217 (2004)
  24. Zhu J, Tang HL, Pan M, J. Membr. Sci., 312(1-2), 41 (2008)
  25. Lin HL, Yu TL, Shen KS, Huang LN, J. Membr. Sci., 237(1-2), 1 (2004)
  26. Zhu, H. Zhang, Y. Liang, Y. Zhang, Q. Luo, C. Bi, and B. Yi, J. Mater. Chem., 17, 386 (2007)
  27. Tang HL, Pan M, Jiang SP, Wang X, Ruan YZ, Electrochim. Acta, 52(16), 5304 (2007)
  28. Kang ET, Zhang Y, Adv. Mater., 12(20), 1481 (2000)
  29. Sohn JY, Sung HJ, Shin J, Ko BS, Song JM, Nho YC, Macromol. Res., 20(9), 912 (2012)
  30. Ko BS, Kang SA, Fei G, Jeun JP, Nho YC, Kang PH, Kim CY, Shin J, Polym.(Korea), 34(1), 20 (2010)
  31. Fei G, Sohn JY, Lee YS, Nho YC, Shin J, Polym.(Korea), 34(5), 464 (2010)
  32. Kattan M, El-Nesr E, J. Appl. Polym. Sci., 102(1), 198 (2006)
  33. Bucio E, Burillo G, Radiat. Phys. Chem., 76, 1724 (2007)
  34. Tu CY, Liu YL, Lee KR, Lai JY, J. Membr. Sci., 274(1-2), 47 (2006)
  35. Kaji K, Hatada M, J. Appl. Polym. Sci., 37, 2153 (1989)