1 Ministry of Science and Technology (MOST), "Technology trends of organic light emitting diodes" KISTI 59-, 2006
2 Volk, R. -B, "Screening of microalgae for species excreting norharmane, a manifold biologically active indole alkaloid" 163 : 307-313, 2008
3 Karakawa, M, "Organic light-emitting diode application of fluorescent cellulose as a natural polymer" 208 : 2000-2006, 2007
4 Hall, M. D, "Molecular orbital study of the first excited state of the OLED material tris (8-hydroxyquinoline) aluminum (III)" 13 : 2632-2640, 2001
5 Lewis, J, "Material challenge for flexible organic devices" 9 : 38-45, 2006
6 Lee, Y. P, "Marine algae of Jeju" Academy Publication 2-418, 2008
7 Yoshida, T, "Marine algae of Japan" Uchida Rokakuho Publishing Co., Ltd 1222-, 1998
8 Wong, W. -Y, "Functional metallophosphors for effective charge carrier injection/transport: new robust OLED materials with emerging applications" 19 : 4457-4482, 2009
9 Hagen, J. A, "Enhanced emission efficiency in organic light-emitting diodes using deoxyribonucleic acid complex as an electron blocking layer" 88 : 171109-, 2006
10 Young-Hwan Lee, "Electrical and Optical Characteristics of Organic Light-Emitting Diodes for Various Thicknesses of the PTFE Layer" 한국물리학회 51 (51): 1016-1018, 2007
1 Ministry of Science and Technology (MOST), "Technology trends of organic light emitting diodes" KISTI 59-, 2006
2 Volk, R. -B, "Screening of microalgae for species excreting norharmane, a manifold biologically active indole alkaloid" 163 : 307-313, 2008
3 Karakawa, M, "Organic light-emitting diode application of fluorescent cellulose as a natural polymer" 208 : 2000-2006, 2007
4 Hall, M. D, "Molecular orbital study of the first excited state of the OLED material tris (8-hydroxyquinoline) aluminum (III)" 13 : 2632-2640, 2001
5 Lewis, J, "Material challenge for flexible organic devices" 9 : 38-45, 2006
6 Lee, Y. P, "Marine algae of Jeju" Academy Publication 2-418, 2008
7 Yoshida, T, "Marine algae of Japan" Uchida Rokakuho Publishing Co., Ltd 1222-, 1998
8 Wong, W. -Y, "Functional metallophosphors for effective charge carrier injection/transport: new robust OLED materials with emerging applications" 19 : 4457-4482, 2009
9 Hagen, J. A, "Enhanced emission efficiency in organic light-emitting diodes using deoxyribonucleic acid complex as an electron blocking layer" 88 : 171109-, 2006
10 Young-Hwan Lee, "Electrical and Optical Characteristics of Organic Light-Emitting Diodes for Various Thicknesses of the PTFE Layer" 한국물리학회 51 (51): 1016-1018, 2007
11 Shin, H. W, "Development of new OLED materials using bioluminescence from marine organisms. Annual report" Ministry of Education and Science Technology 60-, 2013
12 Choi, H. G, "Depostion behavior and photoelectrochemical characteristics of chlorophyll a Langmuir-Blodgett films" 6 : 183-188, 2001
13 Steckl, A. J, "DNA: a new material for photonics" 1 : 3-5, 2007
14 Rau, I, "DNA-novel nanomaterial for applications in photonics and in electronics" 13 : 853-864, 2012
15 Gomez, E. F, "DNA bases thymine and adenine in bio-organic light emitting diodes" 4 : 7105-, 2014
16 Silva, P. C, "Catalogue of the benthic marine algae of the Indian Ocean" 79 : 1-1259, 1996
17 Singh, T. B, "Bio-organic optoelectronic devices using DNA" 223 : 189-212, 2010
18 서유석, "BCP 전자수송층 두께가 백색 OLED의 효율 및 발광 특성에 미치는 영향" 한국전기전자재료학회 27 (27): 45-49, 2014
19 Sanderson, K. J, "Auxin in a seaweed extract: identification and quantitation of indole-3-acetic acid by gas chromatography-mass spectrometry" 129 : 363-367, 1987
20 Schneider, C. W, "A synoptic review of the classification of red algal genera a half century after Kylin’s Die Gattungen der Rhodophyceen" 50 : 197-249, 2007
21 Kim, S. O, "A high efficient deep blue fluorescent OLED based on diphenylaminofluorenylstyrene-containing emitting materials" 160 : 1259-1265, 2010
22 Tajima, H, "A biomolecular light-emitting diode" SPIE Newsroom
23 Sasabe, H, "2-Phenylpyrimidine skeleton-based electrontransport materials for extremely efficient green organic light-emitting devices" 44 : 5821-5823, 2008