• Title/Summary/Keyword: 2-TNATA

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Enhanced Efficiency of Organic Electroluminescence Diode Using 2-TNATA:C60 Hole Injection Layer (2-TNATA:C60 정공 주입층을 이용한 유기발광다이오드의 성능 향상 연구)

  • Park, So-Hyun;Kang, Do-Soon;Park, Dae-Won;Choe, Young-Son
    • Polymer(Korea)
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    • v.32 no.4
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    • pp.372-376
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    • 2008
  • Vacuum deposited 4,4',4"-tris(N-(2-naphthyl)-N-phenylamino)-triphenylamine (2-TNATA), used as a hole injection (HIL) material in OLEDs, is placed as a thin interlayer between indium tin oxide (ITO) electrode and a hole transporting layer (HTL) in the devices. C60-doped 2-TNATA:C60 (20 wt%) film was formed via co-evaporation process and molecular ordering and topology of 2-TNATA:C60 films were investigated using XRD and AFM. The J-V, L-V and current efficiency of multi-layered devices were characterized as well. Vacuum-deposited C60 film was molecularly oriented, but neither was 2-TNATA:C60 film due to the uniform dispersion of C60 molecules in the film. By using C60-doped 2-TNATA:C60 film as a HIL, the current density and luminance of a multi-layered ITO/2-TNATA:C60/NPD/$Alq_3$/LiF/Al device were significantly increased and the current efficiency of the device was increased from 4.7 to 6.7 cd/A in the present study.

All Carrier Ohmic-Contacts을 이용한 유기 발광 다이오드의 성능 향상 연구

  • Park, Jin-U;Im, Jong-Tae;Yeom, Geun-Yeong
    • Proceedings of the Korean Vacuum Society Conference
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    • 2012.02a
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    • pp.168-168
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    • 2012
  • 본 연구에서는 Molybdenum oxide (MoOx)-doped 4,4',4"-tris[2-naphthyl(amino)] triphenylamine(2-TNATA)의 P-doping에 의한 hole ohmic contact과 fullerene (C60)/lithium (LiF)의 electron ohmic contact에 의한 All Ohmic contact를 이용한 유기 발광 다이오드 (OLEDs)의 광저항 특성의 향상을 설명한다. 이 소자의 성능은 MoOx-doped 2-TNATA의 두께와 도핑농도에 큰 영향을 받는다. glass/ITO/MoOx-doped 2-TNATA (100 nm)/Al 구조의 소자에서 MoOx-doped 2-TNATA 도핑 농도가 25%에서 75%로 증가할수록 hole only device의 hole ohmic 특성이 향상됐다. 그 이유는 p-type doping effect 때문이다. 또한 photoemission spectra 분석결과, p-type doping effect는 hole-injecting barrier 높이는 낮추고, hole conductivity는 향상되었다. 이것은 2-TNATA에 도핑된 MoOx의 전하전송 콤플렉스의 형성으로 hole carrier의 수가 증가하여 발생되었다. MoOx-doped 2-TNATA의 hole ohmic contact과 fullerene (C60)/lithium fluoride (LiF)의 electron ohmic contact 으로 구성된 glass/ITO/MoOx-doped 2-TNATA (75%, 60 nm)/NPB (10 nm)/Alq3 (35 nm)/C60 (5 nm)/LiF (1 nm)/Al (150 nm)의 소자구조는 6,4V에서 127,600 cd/m2 최대 휘도와 약 1,000 cd/m2에서 4.7 lm/W의 높은 전력 효율을 보여준다.

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Study of OLEDs to Improve Carrier Injection Efficiency (캐리어 주입효율 향상을 위한 유기 발광 다이오드 연구)

  • Park, Jin-U;Im, Jong-Tae;O, Jong-Sik;Kim, Seong-Hui;Yeom, Geun-Yeong
    • Proceedings of the Korean Institute of Surface Engineering Conference
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    • 2012.05a
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    • pp.169-169
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    • 2012
  • Molybdeum oxide-doped 4,4',4"-tris(2-naphthyl(phenyl)amino)tri- phenylamine (2-TNATA) layer 의 도핑농도가 75%일 때 OLED 소자의 성능이 향상되었다. Hole transport layer (HTL) 로 사용된 MOOX-doped 2-TNATA layer는 hole-injection barrier height를 낮추어서 효율적인 홀주입특성을 보였다. 그러나 도핑농도가 75%이하일 때는 소자 특성이 나빠짐을 알 수 있었다.

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Characterization of Blue Organic Light Emitting Diodes using TPM-BiP (TPM-BiP 청색 형광 재료의 전계발광특성)

  • Chang, Ji-Geun;Shin, Sang-Baie;Ahn, Jong-Myoung;Chang, Ho-Jung;Lee, Hak-Min;Gong, Myoung-Sun;Kim, Min-Young;Kim, Jun-Woo
    • Journal of the Semiconductor & Display Technology
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    • v.6 no.2 s.19
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    • pp.11-14
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    • 2007
  • For the fabrication of blue color organic light emitting diodes(OLED) with a high performance, 2-TNATA [4,4',4"-tris (2-naphthylphenyl-phenylamino)-triphenylamine] as hole injection material and NPB [N,N'-bis (1-naphthyl) -N,N'-diphenyl-1,1'-biphenyl-4,4'-diamine] as hole transport material were deposited on the ITO (indium tin oxide)/glass substrate by the vacuum thermal evaporation. After then, blue color emission layer was deposited using TPM-BiP[(4'-Benzoylferphenyl-4-yl)phenyl-methanone-Diethyl(biphenyl-4-ymethyl)phosphonate] and GDI602 as a light emitting organic material. Finally, the two kinds of OLEDs with the structure of $ITO/2-TNATA/NPB/TPM-BiP/Alq_3/LiF/Al and ITO/2-TNATA/NPB/GDI602/Alq_3/LiF/Al$ were prepared by in-situ deposition. The maximum current density and luminance were found to be about $588\;mA/cm^2\;and\;5239\;cd/m^2$ at 12V for the OLED sample with the structure of $ITO/2-TNATA/NPB/TPM-BiP/Alq_3/LiF/Al$. Color coordinate of blue OLED was x=0.18, y=0.18 (at llV) and the maximum current efficiency was 2.82 cd/A (at 6V) with the peak emission wavelength of 440 nm.

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Fabrication and Characterization of Yellow OLED using GDI602:Rubrene(10%) Material (GDI 602/Rubrene을 이용한 황색 OLED의 제작과 특성 분석)

  • Jang, Ji-Geun;Kim, Hee-Won
    • Journal of the Microelectronics and Packaging Society
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    • v.13 no.4
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    • pp.71-75
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    • 2006
  • The yellow emitting OLED using GDI602:Rubrene(10%) material has been fabricated and characterized. In the device fabrication, 2-TNATA [4,4',4'-tris(2-naphthylphenyl-phenylamino)-triphenyl-amine] as a hole injection material and NPB[N,N'-bis(1-naphthyl)-N,N'-diphenyl-1,1'-biphenyl -4,4'-diamine] as a hole transport material were deposited on the ITO(indium thin oxide)/glass substrate by vacuum evaporation. And then, yellow emission material was deposited using GDI602 as a host material and Rubrene(10%) as a dopant. Finally, small molecular OLED with the structure of $ITO/2-TNATA/NPB/GDI602:Rubrene(10%)/Alq_{3}/LiF/Al$ was obtained by in-situ successive deposition of $Alq_{3}$, LiF and Al as the electron transport material, electron injection material and cathode. The yellow OLED fabricated in our experiments showed the color coordinate of CIE(0.50, 0.49), the luminance of $2300\;Cd/m^{2}$ and the power efficiency of 0.7 lm/W at 10 V with the peak emission wavelength of 562 nm.

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Characteristics on the Variation of Hole transporting layer of Blue organic light-emitting diodes (정공수송층의 변화에 따른 청색 유기 발광 소자의 특성)

  • Kim, Gu-Young;Park, Jung-Hyun;Seo, Ji-Hoon;Lee, Kum-Hee;Yoon, Seung-Soo;Kim, Young-Kwan
    • Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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    • 2007.11a
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    • pp.434-435
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    • 2007
  • We have demonstrated the characteristics on the variation of hole transporting layer in blue organic light-emitting diodes (OLEDs) using new blue fluorescent emitter. We fabricated two types of hole transporting layer structures that one is 4,4',4"-Tris(N-(2-naphthyl)-N-phenyl-amino)-triphenylamine (2-TNATA) of $600{\AA}$ as a hole injection layer, N,N'-diphenyl-N,N'- (2-napthyl)-(1,1'-phenyl)-4,4'-diamine (NPB) of $200{\AA}$ as a hole transporting layer and another device is NPB of $500{\AA}$ without the 2-TNATA. The devices without the 2-TNATA showed improved characteristic of the luminance and efficiency.

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Analysis of Characteristics of the Blue OLEDs with Changing HBL Materials (정공 저지층의 재료변화에 따른 청색유기발광소자의 특성분석)

  • Kim, Jung-Yeoun;Kang, Myung-Koo;Oh, Hwan-Sool
    • 전자공학회논문지 IE
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    • v.43 no.4
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    • pp.1-7
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    • 2006
  • In this paper, two types of blue organic light-emitting device were designed. We have analyzed the characteristics of Type I device without a hole blocking layer, and analyzed the characteristics of Type II device using a hole blocking layer of BCP or BAlq materials with 30 ${\AA}$ thickness. We obtained the ITO having the work function value of 5.02 eV using $N_2$ plasma treatment method with the plasma power 200 W. Type I device structure was ITO/2-TNATA/$\alpha$-NPD/DPVBi/$Alq_3$/LiF/Al:Li, and type II device structure was ITO/2-TNATA/$\alpha$-NPD/DPVBi/HBL/$Alq_3$/LiF/Al:Li. We have analyzed the characteristics of Type I and Type II device. The characteristics of the device were most efficiency on occasion of using a hole blocking layer of BAlq material with 30 ${\AA}$ thickness. Current density was 226.75 $mA/cm^2$, luminance was 10310 $cd/m^2$, Current efficiency was 4.55 cd/A, power efficiency was 1.43 lm/W at an applied voltage of 10V. The maximum EL wavelength of the fabricated blue organic light-emitting device was 456nm. The full-width at half-maximum (FWHM) for the EL spectra was 57nm. CIE color coordinates were x=0.1438 and y=0.1580, which was similar to NTSC deep-blue color with CIE color coordinates of x=0.14 and y=0.08.

Fabrication and Characterization of High Performance Green OLEDs using $Alq_3$-C545T Systems ($Alq_3$-C545T시스템을 이용한 고성능 녹색 유기발광다이오드의 제작과 특성 평가)

  • Jang Ji-Geun;Kim Hee-Won;Shin Se-Jin;Kang Eui-Jung;Ahn Jong-Myong;Lim Yong-Gyu
    • Journal of the Microelectronics and Packaging Society
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    • v.13 no.1 s.38
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    • pp.51-55
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    • 2006
  • The green emitting high performance OLEDs using the $Alq_3$-C545T fluorescent system have been fabricated and characterized. In the device fabrication, 2-TNATA [4,4',4'-tris(2-naphthylphenyl-phenylamino)-triphenylamine] as a hole injection material and NPB [N,N'-bis(1-naphthyl)-N,N'-diphenyl-1,1'-biphenyl-4,4'-diamine] as a hole transport material were deposited on the ITO(indium thin oxide)/glass substrate by vacuum evaporation. And then, green color emission layer was deposited using $Alq_3$ as a host material and C-545T[10-(2-benzothiazolyl)-1,1,7,7- tetramethyl-2,3,6,7-tetrahydro-1H,5H,11H-[1]/benzopyrano[6,7,8-ij]-quinolizin-11-one] as a dopant. Finally, small molecule OLEDs with structure of ITO/2-TNATA/NPB/$Alq_3$:C545T/$Alq_3$/LiF/Al were obtained by in-situ deposition of $Alq_3$, LiF and Al as the electron transport material, electron injection material and cathode, respectively. Green OLEDs fabricated in our experiments showed the color coordinate of CIE(0.29, 0.65) and the maximum power efficiency of 7.3 lm/W at 12 V with the peak emission wavelength of 521 nm.

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TOP-EMISSION CHARACTERISTICS OF ORGANIC LIGHT-EMITTING DIODES (유기발광소자의 전면 발광 특성)

  • Shin, Eun-Chul;Park, Il-Heung;Lee, Ho-Shik;Cho, Sung-Ho;Min, Hang-Gi;Kim, Tae-Wan
    • Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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    • 2007.06a
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    • pp.58-59
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    • 2007
  • We have fabricated top-emission. organic ligth-emitting diodes in a structure of Glass/Al/2-TNATA/TPD/$Alq_3$/LiF/Al/Ag. By varying a film thickness of 2-TNATA and TPD, current efficiency, luminance efficiency, and viewing angle dependence of the device were measured. The top device using $Alq_3$ showed electroluminescent peak wavelengths of 522nm and 505nm at $0^{\circ}$ and $60^{\circ}$ viewing angles, respectively. It is thought that a microcavity effect affects on peak wavelength position for different viewing angles.

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