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      Low-cost Contact formation of High-Efficiency Crystalline Silicon Solar Cells by Plating

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      https://www.riss.kr/link?id=A100857567

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      High-efficiency silicon solar cells have potential applications on mobile electronics and electrical vehicles. The fabrication processes of the high efficiency cells necessitate com placated fabrication precesses and expensive materials. Ti/Pd/Ag metal contact has been used only for limited area In spite of good stability and low contact resistance because of Its expensive material cost and precesses. Screen printed contact formed by Ag paste causes a low fill factor and a high shading loss of commercial solar cells because of high contact resistance and a low aspect ratio. Low cost Ni/Cu metal contact has been formed by using a low cost electroless and electroplating. Nickel silicide formation at the interface enhances stability and reduces the contact resistance resulting In an energy conversion efficiency of 20.2%on0.50Ωcm FZ wafer. Tapered contact structure has been applied to large area solar cells with 6.7×6.7cm 2 in order to reduce power losses by the front contact The tapered front metal contact Is easily formed by the electroplating technique producing 45cm 2 solar cells with an efficiency of 21.4% on 21.4%on2Ωcm FZ wafer.
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      High-efficiency silicon solar cells have potential applications on mobile electronics and electrical vehicles. The fabrication processes of the high efficiency cells necessitate com placated fabrication precesses and expensive materials. Ti/Pd/Ag meta...

      High-efficiency silicon solar cells have potential applications on mobile electronics and electrical vehicles. The fabrication processes of the high efficiency cells necessitate com placated fabrication precesses and expensive materials. Ti/Pd/Ag metal contact has been used only for limited area In spite of good stability and low contact resistance because of Its expensive material cost and precesses. Screen printed contact formed by Ag paste causes a low fill factor and a high shading loss of commercial solar cells because of high contact resistance and a low aspect ratio. Low cost Ni/Cu metal contact has been formed by using a low cost electroless and electroplating. Nickel silicide formation at the interface enhances stability and reduces the contact resistance resulting In an energy conversion efficiency of 20.2%on0.50Ωcm FZ wafer. Tapered contact structure has been applied to large area solar cells with 6.7×6.7cm 2 in order to reduce power losses by the front contact The tapered front metal contact Is easily formed by the electroplating technique producing 45cm 2 solar cells with an efficiency of 21.4% on 21.4%on2Ωcm FZ wafer.

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