• Title/Summary/Keyword: TCO (transparent conductive oxide)

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Laser Direct Etching on Transparent Conductive Oxide Films Sputtered on Polycarbonate Substrates (PC 기판상에 스퍼터링된 투명전도 산화막의 레이저 식각 특성)

  • Lee, Jeongmin;Kwon, Sang Jik;Cho, Eou Sik
    • Journal of the Korean Institute of Electrical and Electronic Material Engineers
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    • v.27 no.3
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    • pp.146-150
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    • 2014
  • As a method of simple patterning of transparent conductive oxide (TCO) films deposited on flexible substrates, laser direct etching was carried out on TCO films sputtered on polycarbonate (PC) substrates. As a result of different binding energies in TCO films, indium tin oxide (ITO) and indium gallium zinc oxide (IGZO) were more easily etched than zinc oxide with different $Nd:YVO_4$ laser beam conditions.

Doping-free Transparent Conducting Schottky Type Heterojunction Solar Cells

  • Kim, Joon-Dong
    • Proceedings of the Korean Vacuum Society Conference
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    • 2012.02a
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    • pp.209-209
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    • 2012
  • High-efficient transparent conductive oxide (TCO) film-embedding Si heterojunction solar cells were fabricated. An additional doping was not applied for heterojunction solar cells due to the spontaneous junction formation between TCO films and an n-type Si substrate. Three different TCO coatings were formed by sputtering method for an Al-doped ZnO (AZO) film, an indium-tin-oxide (ITO) film and double stacks of ITO/AZO films. An improved crystalline ITO film was grown on an AZO template upon hetero-epitaxial growth. This double TCO films-embedding Si heterojunction solar cell provided significantly enhanced efficiency of 9.23% as compared to the single TCO/Si devices. The effective arrangement of TCO films (ITO/AZO) provides benefits of a lower front contact resistance and a smaller band offset to Si leading enhanced photovoltaic performances. This demonstrates a potential scheme of the effective TCO film-embedding heterojunction Si solar cells.

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Transparent conductive oxide layers-embedding heterojunction Si solar cells (투명접합을 이용한 이종 태양전지)

  • Yun, Ju-Hyung;Kim, Mingeun;Park, Yun Chang;Anderson, Wayne A.;Kim, Joondong
    • 한국신재생에너지학회:학술대회논문집
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    • 2011.11a
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    • pp.47.2-47.2
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    • 2011
  • High-efficient transparent conductive oxide (TCO) film-embedding Si heterojunction solar cells were fabricated. An improved crystalline indium-tin-oxide (ITO) film was grown on an Al-doped ZnO (AZO) template upon hetero-epitaxial growth. This double TCO-layered Si solar cell provided significantly enhanced efficiency of 9.23 % as compared to the single TCO/Si devices. The effective arrangement of TCO films (ITO/AZO) provides a good interface, resulting in the enhanced photovoltaic performances. It discusses TCO film arrangement scheme for efficient TCO-layered heterojunction solar cells.

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Improvement of Electrical and Optical Properties of GZO/ITO Multi-layered Transparent Conductive Oxide Films for Solar Cells by Controlling Structure of Buffer Layer

  • Chung, Ah-Ro-Mi;Song, Pung-Keun
    • Proceedings of the Korean Vacuum Society Conference
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    • 2011.02a
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    • pp.206-206
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    • 2011
  • 투명 전도성 산화물 (TCO, Transparent Conductive Oxide) 박막을 태양전지에 적용하기 위해서는 우수한 전기 전도성 및 가시광 영역에서 높은 투과율을 가져야 한다. 대표적인 TCO 물질인 ITO (Indium tin oxide) 박막은 우수한 전기적, 광학적 특성을 가지고 있지만 $400^{\circ}C$ 이상의 고온에서는 전기저항이 급격히 증가하게 되어 실제 태양전지 패널에 적용했을 때 전기적 특성이 저하된다. 따라서 태양전지용 TCO 박막을 개발 시, 뛰어난 고온 안정성이 요구되고 있다. 본 연구에서는 고온 안정적 특성을 지니는 Ga3+를 도핑한 ZnO 계열 TCO인 GZO/ITO multi-layered 박막을 증착하였다. 또한 buffer layer의 두께 변화 및 구조 제어를 통한 최위층 박막의 전기적 특성 및 결정성을 조사하였으며 다층 박막의 계면 간 특성 및 굴절률 제어를 통한 광학적 물성을 연구하였다.

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Effects of Deposition Thickness and Oxygen Introduction Flow Rate on Electrical and Optical Properties of IZO Films (증착두께 및 산소도입속도가 IZO 필름의 전기 및 광학적 특성에 미치는 영향)

  • Park, Sung-Hwan;Ha, KiRyong
    • Applied Chemistry for Engineering
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    • v.21 no.2
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    • pp.224-229
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    • 2010
  • Transparent conductive oxide films have been widely used in the field of flat panel display (FPD). Transparent conductive Indium Zinc Oxide (IZO) thin films with excellent chemical stability have attracted much attention as an alternative material for Indium Tin Oxide (ITO) films. In this study, using $In_2O_3$ and ZnO powder mixture with a ratio of 90 : 10 wt% as a target, IZO films are prepared on polynorbornene (PNB) substrates by electron beam evaporation. The effect of thickness and $O_2$ introduction flow rate on the optical, electrical, structural properties and surface composition of deposited IZO films were investigated by UV/Visible spectrophotometer, 4-point probe method, SEM, XRD and XPS.

Metal Oxide-Based Heterojunction Broadband Photodetector (산화물 반도체 기반의 이종접합 광 검출기)

  • Lee, Sang-eun;Lee, Gyeong-Nam;Ye, Sang-cheol;Lee, Sung-ho;Kim, Joondong
    • Journal of the Korean Institute of Electrical and Electronic Material Engineers
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    • v.31 no.3
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    • pp.165-170
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    • 2018
  • In this study, double-layered TCO (transparent conductive oxide) films were produced by depositing two distinct TCO materials: $SnO_2$ works as an n-type layer and ITO (indium-doped tin oxide) serves as a transparent conductor. Both transparent conductive oxide-films were sequentially deposited by sputtering. The electrical and optical properties of single-layered TCO films ($SnO_2$) and double-layered TCO ($ITO/SnO_2$) films were investigated. A TCO-embedding photodetector was realized through the formation of an $ITO/SnO_2/p-Si/Al$ layered structure. The remarkably high rectifying ratio of 400.64 was achieved with the double-layered TCO device, compared to 1.72 with the single-layered TCO device. This result was attributed to the enhanced electrical properties of the double-layered TCO device. With respect to the photoresponses, the photocurrent of the double-layered TCO photodetector was significantly improved: 1,500% of that of the single-layered TCO device. This study suggests that, due to the electrical and optical benefits, double-layered TCO films are effective for enhancing the photoresponses of TCO photodetectors. This provides a useful approach for the design of photoelectric devices, including solar cells and photosensors.

Si Based Photoelectric Device with ITO/AZO Double Layer (ITO/AZO 투명전극을 이용한 Si 기반의 광전소자)

  • Jang, Hee-Joon;Yoon, Han-Joon;Lee, Gyeong-Nam;Kim, Joondong
    • Journal of the Korean Institute of Electrical and Electronic Material Engineers
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    • v.31 no.2
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    • pp.85-89
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    • 2018
  • In this study, functional transparent conducting layers were investigated for Si-based photoelectric applications. Double transparent conductive oxide (TCO) films were deposited on a Si substrate in the sequence of indium tin oxide (ITO) followed by aluminum-doped zinc oxide (AZO). First, we observed that the conductivity and transparency of AZO dominate the overall performance of the double TCO layers. Secondly, the double layered TCO film (consisting of AZO/ITO) deposited by sputtering was compared to a AZO-only film in terms of their optical and electrical properties. We prepared three different AZO films: ITO:3min/AZO:10min, ITO:5min/AZO:7min, and ITO:7min/AZO:4min. The results show that the optical properties (transmittance, absorbance, and reflection) can be controlled by the film composition. This may provide a significant pathway for the manipulation of the optical and electrical properties of photoelectric devices.

Electrical and Optical Properties of IZO Films Deposited on Polynorbornene Substrate (Polynorbornene 기판 위에 증착된 IZO 필름의 전기 및 광학적 특성연구)

  • Park, Sung-Hwan;Ha, KiRyong
    • Applied Chemistry for Engineering
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    • v.20 no.6
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    • pp.612-616
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    • 2009
  • Transparent conductive oxide (TCO) films have been widely used in the field of flat panel display industry. Transparent conductive indium zinc oxide (IZO) thin films with excellent chemical stability have attracted much attention as an alternative material for indium tin oxide (ITO) films. In this study, using a $In_2O_3$ and ZnO powder mixture with a ratio of 90 : 10wt% as a target, IZO films were prepared on polynorbornene (PNB) substrates by electron beam evaporation. The effect of substrate temperature and $O_2$ introduction flow rate were investigated in terms of electrical and optical properties of deposited IZO films. The best electrical and optical properties we obtained from this study were sheet resistance value of $5.446{\times}10^2{\Omega}/{\boxempty}$ and optical transmittance of 87.4% at 550 nm at $O_2$ introduction flow rate of 4 sccm, deposition rate of $2{\AA}$/sec, thickness of 1000 $\AA$ and substrate temperature of $150^{\circ}C$.

Post-annealing Effect of NiO Thin Film Grown by RF Sputtering System on 4H-SiC Substrate (4H-SiC 기판 위에 RF Sputter로 증착된 NiO 박막의 후열처리 효과)

  • Soo-Young Moon;Min-Yeong Kim;Dong-Wook Byun;Geon-Hee Lee;Sang-Mo Koo
    • Journal of the Korean Institute of Electrical and Electronic Material Engineers
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    • v.36 no.2
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    • pp.170-174
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    • 2023
  • Nickel oxide is a nonstoichiometric transparent conductive oxide with p-type conductivity, a wide-band energy gap of 3.4~4.0 eV, and excellent chemical stability, making it a very important candidate as a material for bipolar devices. P-type conductivity in Transparent Conductive Oxides (TCO) is controlled by the oxygen vacancy concentration. During the TCO film deposition process, additional oxygen diffusing into the NiO structure causes the formation of Ni 3p ions and Ni vacancies. This eventually affects the hole concentration of the p-type oxide thin film. In this work, the surface morphology and the electrical characteristics were confirmed in accordance with the annealing atmosphere of the nickel oxide thin film.

Effective Light Management of Three-Dimensionally Patterned Transparent Conductive Oxide Layers

  • Kim, Joon-Dong;Kim, Min-Geon;Kim, Hyun-Yub;Yi, Jun-Sin
    • Proceedings of the Korean Vacuum Society Conference
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    • 2012.08a
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    • pp.85-85
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    • 2012
  • For effective light harvesting, a design weighting should be implemented in a front geometry, in which the incident light transmits from a surface into a light-active layer. We designed a three-dimensionally patterned transparent conductor layer for effective light management. A transparent conductive oxide (TCO) film was formed as three-dimensional structures. This efficiently drives the incident light at the front surface into a Si absorber to yield a reduction in reflection and an enhancement of current. This indicates that an optimum architecture for a front TCO surface will provide an effective way for light management in solar cells.

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