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"Plating"

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"Plating"

Fabrication and Characterization of Piezoelectric Porous Sponge Using Sugar Cubes
Yebin Lee, Hyunseung Kim, Tauk Eom, Chang Kyu Jeong
J Electr Electron Mater 2025;38(4):366-375.   Published online July 1, 2025
DOI: https://doi.org/10.4313/JKEM.2025.38.4.3
Porous polymeric structures with piezoelectric properties have attracted considerable attention in the fields of biomaterials and tissue engineering due to their ability to convert mechanical stimuli into electrical signals. However, conventional fabrication methods for porous structures often face limitations in controlling pore architecture, maintaining structural uniformity, and achieving process reproducibility, in addition to requiring complex processing conditions. To address these issues, we propose a facile and reproducible fabrication method for porous poly (vinylidene fluoride) (PVDF) piezoelectric sponges using molded sugar cubes as sacrificial pore templates. By adjusting the particle size of the sugar templates, the pore size and distribution of the sponges could be effectively controlled, and a uniform open-pore network was achieved. The fabricated sponges were evaluated with a focus on pore morphology, mechanical behavior, and piezoelectric performance depending on the sugar particle size, and these evaluations confirmed the structural properties and functional efficacy. This study presents a simple and reproducible fabrication strategy along with a quantitative analysis method for porous structures, which is expected to enhance process accessibility and practical applicability in the development of piezoelectric polymer-based biomaterial platforms.
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Removal of Laser Damage in Electrode Formed by Plating in Crystalline Silicon Solar Cells
Myeong Sang Jeong, Min Gu Kang, Jeong In Lee, Hee-eun Song
J Electr Electron Mater 2016;29(6):370-375.   Published online June 1, 2016
In this paper, we investigated the electrical properties of crystalline silicon solar cell fabricated with Ni/Cu/Ag plating. The laser process was used to ablate silicon nitride layer as well as to form the selective emitter. Phosphoric acid layer was spin-coated to prevent damage caused by laser and formed selective emitter during laser process. As a result, the contact resistance was decreased by lower sheet resistance in electrode region. Low sheet resistance was obtained by increasing laser current, but efficiency and open circuit voltage were decreased by damage on the wafer surface. KOH treatment was used to remove the laser damage on the silicon surface prior to metalization of the front electrode by Ni/Cu/Ag plating. Ni and Cu were plated for each 4 minutes and 16 minutes and very thin layer of Ag with 1 ㎛ thickness was plated onto Ni/Cu electrode for 30 seconds to prevent oxidation of the electrode. The silicon solar cells with KOH treatment showed the 0.2% improved efficiency compared to those without treatment.
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Energy Materials : Efficiency Improvement in Screen-printed Crystalline Silicon Solar Cell with Light Induced Plating
Myeong Sang Jeong, Min Gu Kang, Hyo Sik Chang, Hee Eun Song
J Electr Electron Mater 2013;26(3):246-251.   Published online March 1, 2013
Screen printing is commonly used to form the front/back electrodes in silicon solar cell. But it has caused high resistance and low aspect ratio, resulting in decreased conversion efficiency in solar cell. Recently the plating method has been combined with screen-printed c-Si solar cell to reduce the resistance and improve the aspect ratio. In this paper, we investigated the effect of light induced silver plating with screen-printed c-Si solar cells and compared their electrical properties. All wafers were textured, doped, and coated with anti-reflection layer. The metallization process was carried out with screen-printing, followed by co-fired. Then we performed light induced Ag plating by changing the plating time in the range of 20 sec~5min with/without external light. For comparison, we measured the light I-V characteristics and electrode width by optical microscope. During plating, silver ions fill the porous structure established in rapid silver particle sintering during co-firing step, which results in resistance decrease and efficiency improvement. The plating rate was increased in presence of light lamp, resulting in widening the electrode with and reducing the short-circuit current by shadowing loss. With the optimized plating condition, the conversion efficiency of solar cells was increased by 0.4% due to decreased series resistance. Finally we obtained the short-circuit current of 8.66 A, open-circuit voltage of 0.632 V, fill factor of 78.2%, and efficiency of 17.8% on a silicon solar cell.
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Energy Materials : Regular Paper ; Investigation of Ni/Cu Solar Cell Using Selective Emitter and Plating
Hyuk Yong Kwon, Jae Doo Lee, Hae Seok Lee, Soo Hong Lee
J Electr Electron Mater 2011;24(12):1010-1017.   Published online December 1, 2011
The use of plated front contact for metallization of silicon solar cell may alternative technologies as a screen printed and silver paste contact. This technologies should allow the formation of contact with low contact resistivity a high line conductivity and also reduction of shading losses. A selective emitter structure with highly dopes regions underneath the metal contacts, is widely known to be one of the most promising high-efficiency solution in solar cell processing. When fabricated Ni/Cu plating metallization cell with a selective emitter structure, it has been shown that efficiencies of up to 18% have been achieved using this technology.
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Regular Paper : The Research of Ni Electroless Plating for Ni/Cu Front Metal Solar Cells
Jae Doo Lee, Min Jeong Kim, Min Jeong Kim, Soo Hong Lee
J Electr Electron Mater 2011;24(4):328-332.   Published online April 1, 2011
The formation of front metal contact silicon solar cells is required for low cost, low contact resistance to silicon surface. One of the front metal contacts is Ni/Cu plating that it is available to simply and inexpensive production to apply mass production. Ni is shown to be a suitable barrier to Cu diffusion into the silicon. The process of Ni electroless plating on front silicon surface is performed using a chemical bath. Additives and buffer agents such as ammonium chloride is added to maintain the stability and pH control of the bath. Ni deposition rate is found to vary with temperature, time, utilization of bath. The experimental result shown that Ni layer by SEM (scanning electron microscopy) and EDX analysis. Finally, plated Ni/Cu contact solar cell result in an efficiency of 17.69% on 2×2 cm2, Cz wafer.
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Energy Materials : Application of a Selective Emitter Structure for Ni/Cu Plating Metallization Crystalline Silicon Solar Cells
Min Jeong Kim, Jae Doo Lee, Soo Hong Lee
J Electr Electron Mater 2010;23(7):575-579.   Published online July 1, 2010
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Development of 121 pins/mm2 High Density Probe Card using Micro-spring Architecture
J Electr Electron Mater 2007;20(9):749-755.   Published online September 1, 2007
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Microwave Properties of Organic-inorganic Composite Material Antenna with Various Fabrication Method of Conduction Material
J Electr Electron Mater 2006;19(9):832-837.   Published online September 1, 2006
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Formation of Fine Pitch Solder Bump with High Uniformity by the Tilted Electrode Ring
J Electr Electron Mater 2005;18(9):798-802.   Published online September 1, 2005
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