• Title/Summary/Keyword: Glass substrate

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A Study on Glass/Mo/ZnO/Glass Thin-film-heaters for Water Heating (수중 발열을 위한 Glass/Mo/ZnO/Glass 구조의 박막형 발열체 연구)

  • Kim, Jiwoo;Choi, Dooho
    • Journal of the Microelectronics and Packaging Society
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    • v.29 no.1
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    • pp.43-47
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    • 2022
  • In this study, we demonstrated an eco-friendly thin-metallic-film-based heater which can be operated in water. Based on the materials stability, Mo was selected as the heating element to secure long-term stability. Using a magnetron sputtering, 40 nm-thick Mo layers were deposited onto a glass substrate, followed by the deposition of 60-nm-thick ZnO layer to prevent oxidation during the heater fabrication process. Then, PVB (Polyvinyl Butyral) was applied on top of ZnO layer and an additional glass substrate was placed, which were heated at 150℃ for 2 hr. The PVB was cured with strong adhesion by the processing condition. We operated the Glass/Mo/ZnO/Glass heater in water, and it was shown that the water temperature reached 50℃ within 2 minutes, with a minimal resistance change of the heater. Finally, the heaters exhibit a semi-transparency, and this aesthetic advantage is expected to contribute to the added value of the heater.

The study of ${\mu}c-Si/CaF_2$/glass properties for thin film transistor application (박막트랜지스터 응용을 위한 ${\mu}c-Si/CaF_2$/glass 구조특성연구)

  • Kim, Do-Young;Ahn, Byeung-Jae;Lim, Dong-Gun;Yi, Jun-Sin
    • Proceedings of the KIEE Conference
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    • 1999.07d
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    • pp.1514-1516
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    • 1999
  • This paper covers our efforts to improve the low carrier mobility and light instability of hydrogenated amorphous silicon (a-Si:H) films with microcrystalline silicon $({\mu}c-Si)$ films. We successfully prepared ${\mu}c-Si$ films on $CaF_2$/glass substrate by decomposition of $SiH_4$ in RPCVD system. The $CaF_2$ films on glass served as a seed layer for ${\mu}c-Si$ film growth. The XRD analysis on $CaF_2$/glass illustrated a (111) preferred $CaF_2$ grains with the lattice mismatch less than 5 % of Si. We achieved ${\mu}c-Si$ films with a crystalline volume fraction of 61 %, (111) and (220) crystal orientations. grain size of $706\AA$, activation energy of 0.49 eV, and Photo/dark conductivity ratio of 124. By using a $CaF_2$/glass structure. we were able to achieve an improved ${\mu}c-Si$ films at a low substrate temperature of $300^{\circ}C$.

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A Study About PDMS-Glass Based Thermopneumatic Micropump Integrated with Check Valve (체크밸브가 달린 열공압 방식의 PDMS-유리마이크로 펌프에 관한 연구)

  • Ko, Young-June;Cho, Woong;Ahn, Yoo-Min
    • Transactions of the Korean Society of Mechanical Engineers A
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    • v.32 no.9
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    • pp.720-727
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    • 2008
  • Microfluidic single chip integrating thermopneumatic micropump and micro check valve are developed. The micropump and micorvalve are made of biocompatible materials, glass and PDMS, so as to be applicable to the biochip. By using the passive-type check valve, backward flow and fluid leakage are blocked and flow control is stable and precise. The chip is composed of three PDMS layers and a glass substrate. In the chip, flow channel and pump chamber were made on the PDMS layers by the replica molding technique and pump heater was made on the glass substrate by Cr/Au deposition. Diameter of the pump chamber is 7 mm and the width and depth of the channel are 200 and $180{\mu}m$, respectively. The PDMS layers chip and the heater deposited glass chip are combined by a jig and a clamp for pumping operation, and they are separable so that PDMS chip is used as a disposable but the heater chip is able to be used repeatedly. Pumping performance was simulated by CFD software and investigated experimentally. The performance was the best when the duty ratio of the applied voltage to the heater was 33%.

Chip-on-Glass Process Using the Thin Film Heater Fabricated on Si Chip (Si 칩에 형성된 박막히터를 이용한 Chip-on-Glass 공정)

  • Jung, Boo-Yang;Oh, Tae-Sung
    • Journal of the Microelectronics and Packaging Society
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    • v.14 no.3
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    • pp.57-64
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    • 2007
  • New Chip-on-glass technology to attach an Si chip directly on the glass substrate of LCD panel was studied with local heating method of the Si chip by using thin film heater fabricated on the Si chip. Square-shaped Cu thin film heater with the width of $150\;{\mu}m$, thickness of $0.8\;{\mu}m$, and total length of 12.15 mm was sputter-deposited on the $5\;mm{\times}5\;mm$ Si chip. With applying current of 0.9A for 60 sec to the Cu thin film heater, COG bonding of a Si chip to a glass substrate was successfully accomplished with reflowing the Sn-3.5Ag solder bumps on the Si chip.

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Effect of Substrate-Induced Stress and Grain Size on the formation of VO2 thin films (기판에 의한 응력과 입계크기가 이산화바나듐 박막 형성에 미치는 영향 연구)

  • Koo, Hyun;Bae, Sung-Hwan;Shin, Dong-Min;Kwon, O-Jong;Park, Chan
    • Proceedings of the KIEE Conference
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    • 2009.07a
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    • pp.1279_1280
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    • 2009
  • Vanadium dioxide(VO2) has been reported to be the most attractive material for thermochromic windows due to its semiconductor-metal phase transition at around $68^{\circ}C$. However, our previous experiment showed it is difficult to grow VO2 thin films directly on glass substrate, whereas thermochromic VO2 thin films were successfully grown on R-cut sapphire substrate. Properties of VO2 thin films on different orientations of sapphire substrates were already reported. Furthermore, VO2 thin films were successfully grown heteroepitaxially on (001) preferred oriented ZnO coated glass. We deposited VO2 thin films using V2O5 targets on substrates with various lattice parameters with same orientation(SrTiO3, MgO, and Sapphire substrate of (001) orientation) by pulsed laser deposition. In this work, we will discuss the effects of lattice misfit, substrate-induced stress and grain size on the properties of VO2 thin films deposited on various substrate materials.

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High Temperature Crystallized Poly-Si on the Molybdenum Substrate for Thin Film Transistor Applications (몰리브덴 기판 위에 고온 결정화된 다결정 실리콘 박막 트랜지스터 특성에 관한 연구)

  • 박중현;김도영;고재경;이준신
    • Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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    • 2002.07a
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    • pp.202-205
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    • 2002
  • Polycrystalline silicon thin film transistors (poly-Si TFTs) are used in a wide variety of applications, and will figure prominently future high-resolution, high-performance flat panel display technology However, it was very difficult to fabricate high performance poly-Si TFTs at a temperature lower than 300$^{\circ}C$ for glass substrate. Conventional process on a glass substrate were limited temperature less than 600$^{\circ}C$ This paper proposes a high temperature process above 750$^{\circ}C$ using a flexible molybdenum substrate deposited hydrogenated amorphous silicon (a-Si:H) and than crystallized a rapid thermal processor (RTP) at the various temperatures from 750$^{\circ}C$ to 1050$^{\circ}C$. The high temperature annealed poly-Si film illustrated field effect mobility higher than 30 $\textrm{cm}^2$/Vs, achieved I$\sub$on//I$\sub$off/ current ratio of 10$^4$ and crystall volume fraction of 92%. In this paper, we introduce the new TFTs Process as flexible substrate very promising roll-to-roll process, and exhibit the properties of high temperature crystallized poly-Si Tn on molybdenum substrate.

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Analysis of the Spectro-ellipsometric Data with Backside Reflection from Semi-transparent Substrate by Using a Rotating Polarizer Ellipsometer (반투명 기층에 의한 후면반사를 고려한 회전검광자 방식의 타원측정 및 분석)

  • Seo, Yeong-Jin;Park, Sang-Uk;Yang, Seong-Mo;Kim, Sang-Youl
    • Korean Journal of Optics and Photonics
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    • v.22 no.4
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    • pp.170-178
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    • 2011
  • The spectroscopic ellipsometric constants are analyzed to determine the thickness and the complex refractive index of a film coated on a semi-transparent substrate, with the reflection from the backside of the substrate properly considered. Expressions representing the effect of the backside reflection on ellipsometric constants are derived using the thickness and the complex refractive index of the substrate. The thickness and the complex refractive of an ITO thin film coated on a glass substrate are obtained by using this method. The results agree quite well with the ones obtained by following the conventional modeling procedure where the backside reflection is neglected during ellipsometric measurement and analysis.

Fabrication and characterization of Indium-Tin Oxide thin film on the commercial glass substrate (일반 현미경용 유리에 증착시킨 Indium-Tin Oxide 박막의 제작 및 특성)

  • 김여중;조길호
    • Journal of the Korean Vacuum Society
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    • v.9 no.1
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    • pp.30-35
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    • 2000
  • Indium-Tin Oxide (ITO) thin films were deposited on the commercial glass substrate by rf-magnetron sputtering. The ITO films with the thickness of 2,000~2,400 $\AA$ were prepared by changing the oxygen partial pressures of 2, 3, and 5%, as well as by changing the substrate temperature of $300^{\circ}C$ and $500^{\circ}C$. spectrophotometer, XRD, SEM, AFM, 4-point probe and Hall effect system were employed to characterize the ITO films. The optimum deposition conditions were the substrate temperature of $500^{\circ}C$ and oxygen partial pressure of 2-3%. At theses conditions, the ITO film showed the transmittance of 91%, the resistivity of $5.4\times10^{-3}\Omega$cm, the carrier concentration of $1.0\times10^{19}\textrm{cm}^{-3}$, and the carrier mobility of 150$\textrm{cm}^2$/Vsec. In XRD spectra, the (222) and (400) $In_2O_3$ planes were dominant under the optimum deposition conditions When the substrate was cleaned only by the method of ultrasonic cleaning without both pre-annealing and chemical treatment of the substrate, the ITO film exhibited the transmittance of 86%, the carrier concentration of $5.4\times10^{19}\textrm{cm}^{-3}$ and the mobility of 24$\textrm{cm}^2$/Vsec.

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Optimization of ZnO:Al properties for $CuInSe_2$ superstrate thin film solar cell

  • Lee, Eun-U;Park, Sun-Yong;Lee, Sang-Hwan;Kim, U-Nam;Jeong, U-Jin;Jeon, Chan-Uk
    • Proceedings of the Materials Research Society of Korea Conference
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    • 2010.05a
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    • pp.36.1-36.1
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    • 2010
  • While the substrate-type solar cells with Cu(In,Ga)Se2 absorbers yield conversion efficiencies of up 20%[1], the highest published efficiency of Cu(In,Ga)Se2 superstrate solar cell is only 12.8% [2]. The commerciallized Cu(In,Ga)Se2 solar cells are made in the substrate configuration having the stacking sequence of substrate (soda lime glass)/back contact (molybdenum)/absorber layer (Cu(In,Ga)Se2)/buffer layer (cadmium sulfide)/window layer (transparent conductive oxide)/anti reflection layer (MgF2) /grid contact. Thus, it is not possible to illuminate the substrate-type cell through the glass substrate. Rather, it is necessary to illuminate from the opposite side which requires an elaborate transparent encapsulation. In contrast to that, the configuration of superstrate solar cell allows the illumination through the glass substrate. This saves the expensive transparent encapsulation. Usually, the high quality Cu(In,Ga)Se2 absorber requires a high deposition temperature over 550C. Therefore, the front contact should be thermally stable in the temperature range to realize a successful superstrate-type solar cell. In this study, it was tried to make a decent superstrate-type solar cell with the thermally stable ZnO:Al layer obtained by adjusting its deposition parameters in magnetron sputtering process. The effect of deposition condition of the layer on the cell performance will be discussed together with hall measurement results and current-voltage characteristics of the cells.

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A Study of the Properties of CuInS2 Thin Film by Sulfurization

  • Yang, Hyeon-Hun;Park, Gye-Choon
    • Transactions on Electrical and Electronic Materials
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    • v.11 no.2
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    • pp.73-76
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    • 2010
  • The copper indium disulfide ($CuInS_2$) thin film was manufactured using sputtering and thermal evaporation methods, and the annealing with sulfurization process was used in the vacuum chamber to the substrate temperature on the glass substrate, the annealing temperature and the composition ratio, and the characteristics thereof were investigated. The $CuInS_2$ thin film was manufactured by the sulfurization of a soda lime glass (SLG) Cu/In/S stacked [1] elemental layer deposited on a glass substrate by vacuum chamber annealing [2] with sulfurization for various times at a temperature of substrate temperature of $200^{\circ}C$. The structure and electrical properties of the film was measured in order to determine the optimum conditions for the growth of $CuInS_2$ ternary compound semiconductor $CuInS_2$ thin films with a non-stoichiometric composition. The physical properties of the thin film were investigated under various fabrication conditions [3,4], including the substrate temperature, annealing temperature and annealing time by X-ray diffraction (XRD), field Emission scanning electron microscope (FE-SEM), and Hall measurement systems. [5] The sputtering rate depending upon the DC/RF power was controlled so that the composition ratio of Cu versus In might be around 1:1, and the substrate temperature affecting the quality of the film was varied in the range of room temperature (RT) to $300^{\circ}C$ at intervals of $100^{\circ}C$, and the annealing temperature of the thin film was varied RT to $550^{\circ}C$ in intervals of $100^{\circ}C$.