Browse > Article
http://dx.doi.org/10.4313/JKEM.2015.28.5.277

Trends of Deep UV-LED Technology for the Pathogen and Biotoxin Aerosol Detection System  

Chong, Eugene (CBR Defense Directorate, Agency for Defense Development (ADD))
Jeong, Young-Su (CBR Defense Directorate, Agency for Defense Development (ADD))
Choi, Kibong (CBR Defense Directorate, Agency for Defense Development (ADD))
Publication Information
Journal of the Korean Institute of Electrical and Electronic Material Engineers / v.28, no.5, 2015 , pp. 277-284 More about this Journal
Abstract
The humans are under attack involving the hazardous environment and pathogen/biotoxin aerosol that is realistic concerned. A portable, fast, reliable, and cheap Pathogen and Biotoxin Aerosol threat Detection(PBAD) trigger is an important technology for detect-to-protect and detect-to-treat system because the man-made biological terror is a fast and lethal infection. The ultraviolet C(UVC) wavelengths light source is key issue for PBAD that is sensitive because of strong fluorescence cross section from fluorescent amino acids in proteins such as tryptophan and tyrosine. The UVC-light emitting diode(LED) is emerging light source technology as alternative to laser or lamps as they offer several advantages. This paper discussed about the design consideration of UVC-LED for the PBAD system. The UVC-LED and PBAD technology, currently available or in development, are also discussed.
Keywords
Deep ultraviolet; Light emitting diode(LED); Pathogen; Biological aerosol; Detection system; Tactical biological (TAC-BIO) sensor; 270 nm;
Citations & Related Records
연도 인용수 순위
  • Reference
1 A. Fujioka, K. Asada, H. Yamada, T. Ohtsuka, T. Ogawa, T. Kosugi, D. Kishikawa, and T. Mukai, Semicond. Sci. Technol., 29, 084005 (2014).   DOI
2 A. Poldmae, J. Cabalo, M. De Lucia, F. Narayanan, L. Strauch III, and D. Sickenberger, Proc. of SPIE, 6398, 63980E (2006).
3 J. Zhang, X. Hu, A. Lunev, J. Deng, Y. Bilenko, T. M. Katona, M. S. Shur, R. Gaska, and M. A. Khan, Jpn. J. of Appl. Phys., 44, 7250 (2005).   DOI
4 J. Cabalo, M. DeLucia, A. Goad, J. Lacis, F. Narayanan, and D. Sickenberger, Proc. of SPIE, 7116, 71160D (2008).
5 Lumex, Inc. (www.lumex.com)
6 H. S. Jeong, M. Park, J. W. Yi, T. Joo, and B. H. Kim, Mol. Biosyst, 6, 951 (2010).   DOI
7 SETi (www.s-et.com)
8 Nikkiso. Co. (www.nikkiso.com)
9 M. Umar, F. Roddick, and L. Fan, J. Hazard. Mater., 266, 1018 (2014).
10 Crystal IS (www.cisuvc.com)
11 HexaTech, Inc. (www.hexatechinc.com)
12 Z. Xu, Y. Wu, F. Shen, Q. Chen, M. Tan, and M. Yao, Aerosol Science and Technology, 45, 1337 (2011).   DOI
13 M. Morrell and J. P. Jiang, Pathogen and Particle Detector System and Method, US 7, 38, 099 B2 (2010).
14 T. V. Ingles, D. A. Henderson, J. G. Bartlett, M. S. Ascher, E. Eitzen, A. M. Friedlander, J. Hauer, J. McDade, M. T. Osterholm, T. O'Toole, G. Parker, T. M. Perl, P. K. Russell, and K. Tonat, JAMA, 281, 1735 (1999).   DOI
15 C. A. Primmerman, Detection of Biological Agents, Lincoln Laboratory Journal (2000).
16 en.wikipedia.org/wiki/Mie_Scattering
17 T. H. Jeys, L. Desmarais, E. J. Lynch, and J. R. Ochoa, Proc. of SPIE, 5071, 234 (2003).
18 Edgewood Chemical Biological Center (www.ecbc.army.mil)
19 R. Bhartia, W. F. Hug, E. C. Salas, R. D. Reid, K. K. Sijapati, A. Tsapin, W. Abbey, K. H. Nealson, A. L. Lane, and P. G. Conard, Appl. Spectrosc., 62, 1070 (2008).   DOI
20 S. C. Hill, Y. L. Pan, C. Williamson, J. L. Santarpia, and H. H. Hill, Optics Express, 21, 22285 (2013).   DOI
21 Edgewood Chemical Biological Center (www.ecbc.army.mil/news/2015/tacbio-gen-2)
22 K. Choi, Y. Ha, H. K. Lee, and J. Lee, Instru. Sci. and Tech., 42, 200 (2014).   DOI
23 Y. J. Chae, M. J. Lee, J. Hwang, S. Kim, T. Y. Lim, J. H. Kim, and D. J. Kim, Journal of Photonic Science and Technology, 2, 53 (2012).
24 H. Teng, Appl. Sci., 2, 496 (2012).   DOI
25 Ashahi Glass Chemical (www.agc.com)
26 Thorlabs, Inc. (www.thorlabs.com)
27 M. Shatalov, W. Sun, R. Jain, A. Lunev, X. Hu, A. Dobrinsky, Y. Bilenko, J. Yang, G. A. Garrett, L. E. Rodak, M. Wraback, M. Shur, and R. Gaska, Semicond. Sci. Technol., 29, 084007 (2014).   DOI
28 M.A.S. Ibrahima, J. M. Adama, O. Autina, and B. Jefferson, Environmental Technology, 35, 400 (2014).   DOI
29 J. Carrano, Spie's Magazine, June (2003).
30 M. Wraback, U. S. Army Research Lab. (www.darpa.mil)
31 J. Albrecht, DARPA-BAA-10-45, 22 (2010).
32 LG Electronics (www.lge.co.kr/lgekr/product)
33 Seoul Viosys (www.seoulviosys.com)
34 Laser Component (www.lasercomponent.ru)
35 estate.mk.co.kr
36 National Science & Technology Information Service (www.ntis.go.kr)
37 www.etoday.co.kr