• Title/Summary/Keyword: metal ink

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Improve the Transparency of Liquid Crystal Display Using Hybrid Conductive Films Based on Carbon Nanomaterials

  • Shin, Seung Won;Kim, Ki-Beom;Jung, Yong Un;Hur, Sung-Taek;Choi, Suk-Won;Kang, Seong Jun
    • Proceedings of the Korean Vacuum Society Conference
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    • 2014.02a
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    • pp.241.2-241.2
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    • 2014
  • We present highly transparent liquid crystal displays (LCDs) using hybrid films based on carbon nanomaterials, metal grid, and indium-tin-oxide (ITO) grid. Carbon based nanomaterials are used as transparent electrodes because of high transmittance. Despite of their high transmittance they have relatively high sheet resistance. To solve this problem, we applied grid and made hybrid conductive films based on carbon nanomaterials. Conventional photolithography processes were used to make a grid pattern of metal and ITO. To fabricate transparent conductive films, carbon nanotube (CNT) ink was spin coated on the grid pattern. The transparency of the conductive film was controlled by shape and size of the grid pattern and the thickness of CNT films. The optical transmittance of CNT-based hybrid films is 92.2% and sheet resistance is also reduced to $168{\Omega}/square$. These substrates were used for the fabrication of typical twisted nematic (TN) LCD cells. From the characteristics of LCD devices such as transmittance, operating voltage, voltage holding ratio our devices were comparable to those of pristine ITO substrates. The result shows that the hybrid conductive films based on carbon nanomaterials could be alternative of ITO for the highly transparent LCDs.

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Permeability of the Lateral Air Flow through Unstructured Pillar-like Nanostructures (비정형 기둥 형상을 가진 나노구조에서의 가스 투과성 실험 연구)

  • Hyewon Kim;Hyewon Lim;Jeong Woo Park;Sangmin Lee;Hyungmo Kim
    • Tribology and Lubricants
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    • v.39 no.5
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    • pp.197-202
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    • 2023
  • Recently, research on experimental and analytical techniques utilizing microfluidic devices has been pursued. For example, lab-on-a-chip devices that integrate micro-devices onto a single chip for processing small sample quantities have gained significant attention. However, during sample preparation, unnecessary gases can be introduced into the internal channels, thus, impeding device flow and compromising specific function efficiency, including that of analysis and separation. Several methods have been proposed to mitigate this issue, however, many involve cumbersome procedures or suffer from complexities owing to intricate structures. Recently, some approaches have been introduced that utilize hydrophobic device structures to remove gases within channels. In such cases, the permeability of gases passing through the structure becomes a crucial performance factor. In this study, a method involving the deposition and sintering of diluted Ag-ink onto a silicon wafer surface is presented. This is followed by unstructured nano-pattern creation using a Metal Assisted Chemical Etching (MACE) process, which yields a nanostructured surface with unstructured pillar shapes. Subsequently, gas permeability in the spaces formed by these surface structures is investigated. This is achieved by experiments conducted to incorporate a pressure chamber and measure gas permeability. Trends are subsequently analyzed by comparing the results with existing theories. Finally, it can be confirmed that the significance of this study primarily lies in its capability to effectively evaluate gas permeability through unstructured pillar-like nanostructures, thus, providing quantitative values for the appropriate driving pressure and expected gas removal time in practical device operation.

High Concentrated Metal Nano Ink for Conductive Patterns (전도성 배선 형성을 위한 고농도 금속나노잉크)

  • Seo, Young-Kwan;Kim, Tae-Hoon;Lee, Young-Il;Jun, Byung-Ho;Lee, Kwi-Jong;Kim, Dong-Hoon
    • Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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    • 2008.11a
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    • pp.413-413
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    • 2008
  • 최근 잉크젯, 스크린, 그라비아 등 기존의 인쇄 방식과 인쇄 기술을 이용하여 저가의 전자회로 혹은 전자 소자를 제조하고자 프린팅 소재 및 공정 개발에 대한 산업계의 관심이 증가하고 있다. 특히 PCB, RFID, 디스플레이, 태양전지 분야의 전극재료의 개발에 많은 연구가 진행 중에 있으며, 다양한 인쇄 방법 중 미세회로의 구현이 가능한 잉크젯 프린팅을 통한 전극 형성방법에 주목하고 있다. 본 연구는 잉크젯 프린팅 방식을 통해 배선을 형성하고자 이에 적합한 다양한 농도의 잉크를 배합하여 평가하였으며, 첨가제 및 소결, 건조 조건의 변화를 통해 기재와의 부착력, 배선의 크랙을 조절하였다.

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Numerical Analysis of Heat Transfer and Fabrication of Carbon Material for Heat Dissipation in Solar Panel (태양광 패널 적용 방열용 탄소소재의 제조 및 열전달 수치해석)

  • Park, Hun-Su;Kang, Chul-Hee;Kim, Hong-Gun
    • Journal of the Korean Society of Manufacturing Process Engineers
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    • v.18 no.12
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    • pp.82-90
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    • 2019
  • This analysis demonstrates the effective removal of heat generated from a solar panel's output degradation factor solar cells (the solar panel's output deterioration factor), and solves the problems of oxidation and corrosion in existing metal heat sinks. The heat-dissipating test specimen was prepared using carbon materials; then, its thermal conductivity and its effectiveness in reducing temperatures were studied using heat transfer numerical analysis. As a result, the test specimen of the 30g/㎡ basis weight containing 80% of carbon fiber impregnated with carbon ink showed the highest thermal conductivity 6.96 W/(m K). This is because the surface that directly contacted the solar panel had almost no pores, and the conduction of heat to the panels appeared to be active. In addition, a large surface area was exposed to the atmosphere, which is considered advantageous in heat dissipation. Finally, numerical analysis confirmed the temperature reduction effectiveness of 2.18℃ in a solar panel and 1.08℃ in a solar cell, depending on the application of heat dissipating materials.

A Study on Improvement of Interfacial Adhesion Energy of Inkjet-printed Ag Thin film on Polyimide by CF4 Plasma Treatment (CF4플라즈마 처리에 의한 잉크젯 프린팅 Ag박막과 폴리이미드 사이의 계면파괴에너지 향상에 관한 연구)

  • Park, Sung-Cheol;Cho, Su-Hwan;Jung, Hyun-Cheol;Joung, Jae-Woo;Park, Young-Bae
    • Korean Journal of Materials Research
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    • v.17 no.4
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    • pp.215-221
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    • 2007
  • The effect of $CF_4$ plasma treatment condition on the interfacial adhesion energy of inkjet printed Ag/polyimide system is evaluated from $180^{\circ}$ peel test by calculating the plastic deformation energy of peeled metal films. Interfacial fracture energy between Ag and as-received polyimide was 5.5 g/mm. $CF_4$ plasma treatment on the polyimide surface enhanced the interfacial fracture energy up to 17.6 g/mm. This is caused by the increase in the surface roughness as well as the change in functional group of the polyimide film due to $CF_4$ plasma treatment on the polyimide surface. Therefore, both the mechanical interlocking effect and the chemical bonding effect are responsible for interfacial adhesion improvement in ink jet printed Ag/polyimide systems.

Possibility of Benzene Exposure in Workers of a Semiconductor Industry Based on the Patent Resources, 1990-2010

  • Choi, Sangjun;Park, Donguk;Park, Yunkyung
    • Safety and Health at Work
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    • v.12 no.3
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    • pp.403-415
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    • 2021
  • Background: This study aimed to assess the possibility of benzene exposure in workers of a Korean semiconductor manufacturing company by reviewing the issued patents. Methods: A systematic patent search was conducted with the Google "Advanced Patent Search" engine using the keywords "semiconductor" and "benzene" combined with all of the words accessed on January 24, 2016. Results: As a result of the search, we reviewed 75 patent documents filed by a Korean semiconductor manufacturing company from 1994 to 2010. From 22 patents, we found that benzene could have been used as one of the carbon sources in chemical vapor deposition for capacitor; as diamond-like carbon for solar cell, graphene formation, or etching for transition metal thin film; and as a solvent for dielectric film, silicon oxide layer, nanomaterials, photoresist, rise for immersion lithography, electrophotography, and quantum dot ink. Conclusion: Considering the date of patent filing, it is possible that workers in the chemical vapor deposition, immersion lithography, and graphene formation processes could be exposed to benzene from 1996 to 2010.

Fabrication of Paper-based Biosensor Chip Using Polydimethylsiloxane Blade Coating Method (PDMS 블레이드 코팅법을 이용한 종이-기반 바이오센서칩 제작)

  • Jeong, Heon-Ho;Park, Chami
    • Korean Chemical Engineering Research
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    • v.59 no.1
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    • pp.100-105
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    • 2021
  • This paper proposes the polydimethylsiloxane (PDMS) blade coating method for fabrication of paper-based analytical device (PAD) that is able to monitor the disease diagnosis and progress without special analytical equipment. The mold that has PAD design is easily modified by using laser cutting technique. And the fabricated mold is used for hydrophobic barrier formation by blade coating. We have optimized the stable formation of PDMS hydrophobic barrier as blade coating condition, which is established by analyzing the structure of the PDMS hydrophobic barrier and change of hydrophilic channel size as thickness of the ink and contact time with the chromatography paper. Based on optimal condition, we demonstrate that PAD as biosensor can apply to detect protein, glucose, and metal ion without special analysis equipment.

Carbon Particle-Doped Polymer Layers on Metals as Chemically and Mechanically Resistant Composite Electrodes for Hot Electron Electrochemistry

  • Habiba, Nur-E;Uddin, Rokon;Salminen, Kalle;Sariola, Veikko;Kulmala, Sakari
    • Journal of Electrochemical Science and Technology
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    • v.13 no.1
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    • pp.100-111
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    • 2022
  • This paper presents a simple and inexpensive method to fabricate chemically and mechanically resistant hot electron-emitting composite electrodes on reusable substrates. In this study, the hot electron emitting composite electrodes were manufactured by doping a polymer, nylon 6,6, with few different brands of carbon particles (graphite, carbon black) and by coating metal substrates with the aforementioned composite ink layers with different carbon-polymer mass fractions. The optimal mass fractions in these composite layers allowed to fabricate composite electrodes that can inject hot electrons into aqueous electrolyte solutions and clearly generate hot electron- induced electrochemiluminescence (HECL). An aromatic terbium (III) chelate was used as a probe that is known not to be excited on the basis of traditional electrochemistry but to be efficiently electrically excited in the presence of hydrated electrons and during injection of hot electrons into aqueous solution. Thus, the presence of hot, pre-hydrated or hydrated electrons at the close vicinity of the composite electrode surface were monitored by HECL. The study shows that the extreme pH conditions could not damage the present composite electrodes. These low-cost, simplified and robust composite electrodes thus demonstrate that they can be used in HECL bioaffinity assays and other applications of hot electron electrochemistry.

Physical Properties of Indium Reduced Materials for Transparent Conductive Electrodes

  • Kwak, Seung-Hoon;Kwak, Min-Gi;Hong, Sung-Jei;Ju, Byeong-Kwon;Han, Jeong In
    • Current Photovoltaic Research
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    • v.2 no.1
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    • pp.14-17
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    • 2014
  • In this paper, indium reduced materials for transparent conductive electrodes (TCE) were fabricated and their physical properties were evaluated. Two of materials, indium-zinc-tin oxide (IZTO) and aluminum (Al) were selected as TCE materials. In case of IZTO nanoparticles, composition ratios of In, Zn and Sn is 8:1:1 were synthesized. Size of the synthesized IZTO nanoparticles were less than 10 nm, and specific surface areas were about $90m^2/g$ indicating particle sizes are very fine. Also, the IZTO nanoparticles were well crystallized with (222) preferred orientation despite it was synthesized at the lowered temperature of $300^{\circ}C$. Composition ratios of In, Zn and Sn were very uniform in accordance with those as designed. Meanwhile, Al was deposited onto glass by sputtering in a vacuum chamber for mesh architecture. The Al was well deposited onto the glass, and no pore was observed from the Al surface. The sheet resistance of Al on glass was about $0.3{\Omega}/{\square}$ with small deviation of $0.025{\Omega}/{\square}$, and adhesion was good on the glass substrate since no pelt-off part of Al was observed by tape test. If the Al mesh is combined with ink coated layer which is consistent of IZTO nanoparticles, it is expected that the good and reliable metal mesh architecture for TCE will be formed.

Alternative Sintering Technology of Printed Nanoparticles for Roll-to-Roll Process (롤투롤 인쇄공정 적용을 위한 차세대 나노입자 소결 기술)

  • Lee, Eun Kyung;Eun, Kyoungtae;Ahn, Young Seok;Kim, Yong Taek;Chon, Min-Woo;Choa, Sung-Hoon
    • Journal of the Microelectronics and Packaging Society
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    • v.21 no.4
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    • pp.15-24
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    • 2014
  • Recently, a variety of printing technologies, including ink jet, gravure, and roll-to-roll (R2R) printing, has generated intensive interest in the application of flexible and wearable electronic devices. However, the actual use of printing technique is much limited because the sintering process of the printed nanoparticle inks remains as a huge practical drawback. In the fabrication of the conductive metal film, a post-sintering process is required to achieve high conductivity of the printed film. The conventional thermal sintering takes considerable sintering times, and requires high temperatures. For application to flexible devices, the sintering temperature should be as low as possible to minimize the damage of polymer substrate. Several alternative sintering methods were suggested, such as laser, halogen lamp, infrared, plasma, ohmic, microwave, and etc. Eventually, the new sintering technique should be applicable to large area, R2R, and polymer substrate as well as low cost. This article reviews progress in recent technologies for several sintering methods. The advantages and disadvantages of each technology will be reviewed. Several issues for the application in R2R process are discussed.