• Title/Summary/Keyword: Hole barrier

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Analysis of IGBT with Hole barrier layer and Diverter (Hole barrier layer 와 Diverter 구조의 IGBT에 관한 특성 분석)

  • Yu, Seung-Woo;Shin, Ho-Hyun;Kim, Yo-Hann;Sung, Man-Young
    • Proceedings of the KIEE Conference
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    • 2007.07a
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    • pp.1315-1316
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    • 2007
  • This is paper, a new structure to effectively improve the Vce(sat) voltage and latch-up current in NPT type IGBTs with hole barrier layer and diverter. The hole barrier layer acts as a barrier to prevent the holes from flowing into the p-layer and stores them in the n-layer. And the diverter significantly reduce hole current from flowing into the p-layer and improve latch up current. Analysis on the Breakdown voltage shows identical values compared to existing Conventional IGBT structures. This shows an improvement on Vce(sat) and Latct-up current without lowering other characteristics of the device. The electrical characteristics were studied by MEDICI simulation results.

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Development of parallax-barrier autostereoscopic display (Parallax-barrier방식 입체영상 디스플레이 개발)

  • 이용범;이남호;안상호
    • 제어로봇시스템학회:학술대회논문집
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    • 1997.10a
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    • pp.1880-1883
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    • 1997
  • An Parallax-Barrier type autostereoscopic display system is implemented to overcome the handicap of current glass-typed stereo imaging system which gives operators unnatural feeling and reluctance. This system is composed of image mixing part of two input images, A/D transformation part, scan conversion part to eliminate the rainbow interference phenomenon, and pin-hole type barrier lens. For the fine display the accurate slit width of barrier is calculated in consideration of retina size, and the samsung 10.4" TFT-LCO was used as flat display monitor.itor.

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The Real Role of 4,4'-Bis[N-[4-{N,N-bis(3-methylphenyl)amino}phenyl]-N-phenylamino] biphenyl (DNTPD) Hole Injection Layer in OLED: Hole Retardation and Carrier Balancing

  • Oh, Hyoung-Yun;Yoo, Insun;Lee, Young Mi;Kim, Jeong Won;Yi, Yeonjin;Lee, Seonghoon
    • Bulletin of the Korean Chemical Society
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    • v.35 no.3
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    • pp.929-932
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    • 2014
  • We explored interfacial electronic structures in indium tin oxide (ITO)/DNTPD/N,N'-diphenyl-N,N'-bis(1-naphthyl)-1,1'-biphenyl-4,4'-diamine (NPB) layer stack in an OLED to clarify the real role of an aromatic amine-based hole injection layer, DNTPD. A hole injection barrier at the ITO/DNTPD interface is lowered by 0.20 eV but a new hole barrier of 0.36 eV at the DNTPD/NPB is created. The new barrier at the DNTPD/NPB interface and its higher bulk resistance serve as hole retardation, and thus those cause the operation voltage for the ITO/DNTPD/NPB to increase. However, it improves current efficiency through balancing holes and electrons in the emitting layer.

Stability of ITO/Buffer Layer/TPD/Alq3/Cathode Organic Light-emitting Diode

  • Chung, Dong-Hoe;Ahn, Joon-Ho;Oh, Hyun-Seok;Park, Jung-Kyu;Lee, Won-Jae;Choi, Sung-Jai;Jang, Kyung-Uk;Shin, Eun-Chul;Kim, Tae-Wan
    • Transactions on Electrical and Electronic Materials
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    • v.8 no.6
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    • pp.260-264
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    • 2007
  • We have studied stability in organic light-emitting diode depending on buffer layer and cathode. A transparent electrode of indium-tin-oxide(ITO) was used as an anode. An electron injection energy barrier into organic material is different depending on a work function of cathodes. Theoretically, the energy barriers for the electron injection are 1.2 eV, -0.1 eV, and 0.0 eV for Al, LiAl, and LiF/Al at 300 K, respectively. We considered the cases that holes are injected to organic light-emitting diode. The hole injection energy barrier is about 0.7 eV between ITO and TPD without buffer layer. For hole-injection buffer layers of CuPc and PEDOT:PSS, the hole injection energy barriers are 0.4 eV and 0.5 eV, respectively. When the buffer layer of CuPc and PEDOT:PSS is existed, we observed the effects of hole injection energy barrier, and a reduction of operating-voltage. However, in case of PVK buffer layer, the hole injection energy barrier becomes high(1.0 eV). Even though the operating voltage becomes high, the efficiency is improved. A device structure for optimal lifetime condition is ITO/PEDOT:PSS/TPD/$Alq_3$/LiAl at an initial luminance of $300cd/m^2$.

Low Temperature Characteristics of Schottky Barrier Single Electron and Single Hole Transistors

  • Jang, Moongyu;Jun, Myungsim;Zyung, Taehyoung
    • ETRI Journal
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    • v.34 no.6
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    • pp.950-953
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    • 2012
  • Schottky barrier single electron transistors (SB-SETs) and Schottky barrier single hole transistors (SB-SHTs) are fabricated on a 20-nm thin silicon-on-insulator substrate incorporating e-beam lithography and a conventional CMOS process technique. Erbium- and platinum-silicide are used as the source and drain material for the SB-SET and SB-SHT, respectively. The manufactured SB-SET and SB-SHT show typical transistor behavior at room temperature with a high drive current of $550{\mu}A/{\mu}m$ and $-376{\mu}A/{\mu}m$, respectively. At 7 K, these devices show SET and SHT characteristics. For the SB-SHT case, the oscillation period is 0.22 V, and the estimated quantum dot size is 16.8 nm. The transconductance is $0.05{\mu}S$ and $1.2{\mu}S$ for the SB-SET and SB-SHT, respectively. In the SB-SET and SB-SHT, a high transconductance can be easily achieved as the silicided electrode eliminates a parasitic resistance. Moreover, the SB-SET and SB-SHT can be operated as a conventional field-effect transistor (FET) and SET/SHT depending on the bias conditions, which is very promising for SET/FET hybrid applications. This work is the first report on the successful operations of SET/SHT in Schottky barrier devices.

A comparison of the characteristics of External type UHF partial discharge sensor for metal covered barriers in GIS (GIS 스페이서의 에폭시 주입구 장착형 UHF PD 센서의 성능 비교)

  • Hwang, Chul-Min;Kim, Young-No;Lee, Young-Sang;Kwak, Joo-Sik;Park, Ki-Jun
    • Proceedings of the KIEE Conference
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    • 2005.07c
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    • pp.2265-2267
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    • 2005
  • We present detailed studies of externally applicable UHF PD sensors for a metal covered epoxy barrier with a small opening of epoxy injection-hole. The sensors were attached at the surface of injection hole of a metal covered epoxy barrier. 3-Dimensional electro magnetic simulations were performed to analyze electric-field distribution of the GIS and epoxy barrier with injection hole. Sensor structures were designed and analyzed using the 3-D EM simulator then fabricated for experimental verification. Sensor performance was measured in terms of spectral response and detected peak power. Real scale GIS and epoxy barriers were used to test and measure various aspect of performance of the sensors.

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Solution-Processed Quantum-Dots Light-Emitting Diodes with PVK/PANI:PSS/PEDOT:PSS Hole Transport Layers

  • Park, Young Ran;Shin, Koo;Hong, Young Joon
    • Proceedings of the Korean Vacuum Society Conference
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    • 2015.08a
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    • pp.146-146
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    • 2015
  • We report the enhanced performance of poly(N-vinylcarbozole) (PVK)/poly(3,4-ethylenedioxythiophene) polystyrene sulfonate (PEDOT:PSS)-based quantum-dot light-emitting diodes by inserting the polyaniline:poly (p-styrenesulfonic acid) (PANI:PSS) interlayer. The QD-LED with PANI:PSS interlayer exhibited a higher luminance and luminous current efficiency than that without PANI:PSS. Ultraviolet photoelectron spectroscopy results exhibited different electronic energy alignments of QD-LEDs with/without the PANI:PSS interlayer. By inserting the PANI:PSS interlayer, the hole-injection barrier at the QD layer/PVK interface was reduced from 1.45 to 1.23 eV via the energy level down-shift of the PVK layer. The reduced barrier height alleviated the interface carrier charging responsible for the deterioration of the current and luminance efficiency. This suggests that the insertion of PANI:PSS interlayer in QD-LEDs contributed to (i) increase the p-type conductivity and (ii) reduce the hole barrier height of QDs/PVK, which are critical factors leading to improve the efficiency of QD-LEDs.

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Interfacial Electronic Structures for Electron and Hole Injection in Organic Devices: Nanometer Layers of CsN3 and 1,4,5,8,-naphthalene-tetracarboxylic-dianhydride (NTCDA)

  • Yi, Yeon-Jin;Jeon, Pyeongeu;Lee, Jai-Hyun;Jeong, Kwang-Ho;Kim, Jeong-Won
    • Proceedings of the Korean Vacuum Society Conference
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    • 2012.02a
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    • pp.90-90
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    • 2012
  • The electron/hole injections in organic electronic devices have long been an issue due to the large energy level mismatches between electrode and organic layer. To utilize the organic materials in electronic devices, functional thin layers have been used, which reduce the electron/hole injection barrier from electrode to organic material. Typically, inorganic compounds and organic molecules are used as an electron and hole injection layer, respectively. Recently, CsN3 and 1,4,5,8,- naphthalene-tetracarboxylic-dianhydride (NTCDA) are reported as a potential electron and hole injection layers. CsN3 shows unique properties that it breaks into Cs and N and thus Cs can dope organic layer into n-type. On the other side, hole injection anode, NTCDA forms gap states with anode material. In this presentation, we show the electronic structure changes upon the insertion of CsN3 and NTCDA at proper interfaces to reduce the charge injection barriers. These barrier reductions are correlated with device characteristics.

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The effect of fullerene on the device performance of organic light-emitting

  • Lee, Jun-Yeob
    • 한국정보디스플레이학회:학술대회논문집
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    • 2006.08a
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    • pp.1805-1808
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    • 2006
  • In this paper, we describe a versatile use of fullerene(C60) as a charge transporting material for organic light-emitting diodes. The use of fullerene as a buffer layer for an anode, a doping material for hole transport layer, and an electron transport layer was investigated. Fullerene improved the hole injection from an anode to a hole transport layer by lowering the interfacial energy barrier and enhanced the lifetime of the device as a doping material for a hole transport layer. In addition, it was also effective as an electron transporting material to get low driving voltage in the device.

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Structural Properties of Dielectric Barrier Reactor with Hole (DBH) for CF4 Decomposition

  • Jung Jung Gun;Kim Jong Suk;Park Jae Yoon;Kim Kwang Soo;Rim Geun Hie
    • Transactions on Electrical and Electronic Materials
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    • v.4 no.4
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    • pp.30-35
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    • 2003
  • In this paper, the $CF_4$ decomposition efficiency is investigated for three simulated plasma reactors that are needle plate reactor, metal particle reactor, and dielectric barrier reactor with hole (DBH). The$CF_4$ decomposition efficiency by DBH is much better than that by needle plate reactor or metal particle reactor. When applied voltage is increased up to the critical voltage for spark formation in the all reactors, the $CF_4$ decomposition efficiency is increased. The $CF_4$ decomposition efficiency in needle plate reactor and metal particle reactor is about $12\%$ and $22\%$ respectively at applied voltage of 23 kV (consumption power: 110 W) and $CF_4$ concentration of 500 ppm, however, the $CF_4$ decomposition efficiency is more than $95\%$ in case of DBH. DBH should be much better than two reactors investigated for $CF_4$ decomposition.