화학공학소재연구정보센터
로그인 로그아웃 연락처 사이트맵
Korean Chemical Engineering Research, Vol.49, No.4, 393-399, August, 2011
Export Citation
환경색센서에 관한 기술 전망
Propectives of Environmental Colorimetric-Sensors
김영훈, 이병환1
  • 광운대학교 화학공학과, 139-701 서울시 노원구 월계동 447-1
  • 1계명대학교 화학시스템공학과, 704-701 대구시 달서구 신당동 1000
Younghun Kim, and Byunghwan Lee1
  • Department of Chemical Engineering, Kwangwoon University, 447-1 Wolgye-dong, Nowon-gu, Seoul 139-701, Korea
  • 1Department of Chemical System Engineering, Keimyung University, 1000 Sindang-dong, Dalseo-gu, Daegu 704-701, Korea
E-mail:
초록
지난 수십년 동안, 환경오염물질에 대한 광학적 전기화학적 검출 방법에 관한 다양한 연구가 진행되었다. 최근에는 저렴하고, 장치가 불필요한 육안 식별 가능한 환경색센서가 개발되고 있다. 시각적 정성분석은 대상물질에 대한 즉각적인 정보를 제공하여, 실시간 현장 분석이 가능하게 해준다. 또한 정량분석이 가능한 색센서에 대한 관심도 높아지고 있다. 환경색센서는 기상의 VOC, 액상의 중금속 분석용으로 주로 개발되고 있다. 이에 본 총설에서는 다양한 환경색 센서의 활용분야를 살펴보고, 기존 색센서의 문제점을 파악한 다음 환경색센서 기술의 발전방향에 관하여 전망하였다.
The electrochemical or optical sensors for environmental pollutants are developed over the past several years. Nowadays, the development of colorimetric sensing is particularly challenging since it requires no equipment at all as color changes can be detected by the naked eye. Visual detection can give immediate qualitative information and is becoming increasingly appreciated in terms of quantitative analysis. In addition, simple colorimetric-sensor have shown useful in the detection, identification, and quantification of volatile organic compounds(VOC) in gas phase or heavy metal ion in aqueous phase. In this review, we investigated the wide applications and some drawbacks of colorimetricsensors. And thus, we try to suggest the methodologies of development approach of multi-functional and reversible colorimetric-sensor.
Keywords:Colorimetric Sensor;Color Change;Heavy Metal Ion;Plasmonic Nanoparticles
  1. Duong TQ, Kim JS, Chem. Rev., 110(10), 6280 (2010)
  2. Rock F, Barsan N, Weimar U, Chem. Rev., 108(2), 705 (2008)
  3. Nath N, Chilkoti A, Journal of Fluorescence., 14, 377 (2004)
  4. Drechsler U, Erdogan B, Rotello VM, Chem. Eur. J., 10, 5570 (2004)
  5. Suslick KS, MRS Bull., 720 (2004)
  6. Zhao W, Brook MA, Li Y, Chem. Bio. Chem., 9, 2363 (2008)
  7. Kim Y, Johnson RC, Hupp JT, Nano Lett., 1, 165 (2001)
  8. Alizadeh A, Khodaei MM, Karami C, Workentin MS, Shamsipur M, Sadeghi M, Nanotechnology., 21, 315503 (2010)
  9. Hung YL, Hsiung TM, Chen YY, Huang YF, Huang CC, J. Phys. Chem, C., 114, 16329 (2010)
  10. Lisowski CE, Hutchison JE, Anal. Chem., 81, 10246 (2009)
  11. Kalluri JR, Arbneshi T, Afrin KS, Neely A, Candice P, Varisli B, Washington M, McAfee S, Robinson B, Banerjee S, Singh AK, Senapati D, Ray PC, Angew Chem., 48, 9668 (2009)
  12. Yao Y, Tian D, Li H, ACS Appl. Mater. Interf., 2, 684 (2010)
  13. Palomares E, Vilar R, Durrant JR, Chem. Commun., 362 (2004)
  14. Kada S, Furui A, Akiyama Y, Nakahara Y, Kimura K, Anaytical Sciences., 25, 261 (2009)
  15. Ai KL, Liu YL, Lu LH, J. Am. Chem. Soc., 131(27), 9496 (2009)
  16. Chen X, Parker SG, Zou G, Su W, Zhang Q, ACS Nano., 4, 6387 (2010)
  17. Huang J, Xu Y, Qian X, J. Org. Chem., 74, 2167 (2009)
  18. Shunmugam R, Gabriel GJ, Smith CE, Aamer KA, Tew GN, Chem. Eur. J., 14, 3904 (2008)
  19. Huang J, Xu Y, Qian X, Org. Biomol. Chem., 7, 1299 (2009)
  20. Guo ZQ, Chen WQ, Duan XM, Org. Lett., 12, 2202 (2010)
  21. Song FL, Garner AL, Koide K, J. Am. Chem. Soc., 129(41), 12354 (2007)
  22. Yagi S, Nakamuraa S, Watanabea D, Nakazumi H, Dyes and Pigments., 80, 98 (2009)
  23. Gunnlaugsson T, Leonard JP, J. Chem. Soc., Perkin trans., 2, 1980 (2002)
  24. Jose DA, Mishra S, Ghosh A, Shrivastav A, Mishra SK, Das A, Org. Lett., 9, 1979 (2007)
  25. Qu Y, Hua J, Tian H, Org Lett., 12, 3320 (2010)
  26. Janzen MC, Ponder JB, Bailey DP, Ingison CK, Suslick KS, Anal Chem., 78, 3591 (2006)
  27. Fox SL, Daum KA, Miller CJ, Cortez MM, “Emergency First Responders' Experence With Colorimetric Detection Methods,” Idaho National Laboratory, Oct. (2007)
  28. Xu Z, Pan J, Spring DR, Cui J, Yoona J, Tetrahedron., 66, 1678 (2010)
  29. Yoon J, Jung YS, Kim JM, Adv. Funct. Mater., 19(2), 209 (2009)