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J Electr Electron Mater : Journal of Electrical and Electronic Materials

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"Ag-paste"

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"Ag-paste"

Energy Materials : Manufacturing and Thermal Process Optimization of Ag-paste for Fabricating High Efficiency Mono-Si Solar Call
Ji Hee Pi, Sung Jin Kim, Chang Rok Son, Soon Yong Kweon
J Electr Electron Mater 2013;26(2):144-150.   Published online February 1, 2013
A New Ag-pastes were developed for integrating the high efficiency mono-Si solar cell. The pastes were the mixture of 84 wt% Ag, 2 wt% glass frit, 11 wt% solvent of buthyl cabitol acetate, and 3 wt% additives. After fabricating the Ag-pastes by using a 3-roll mill, they were coated on a SiN_x/n+/p- stacks of a commercial mono-Si solar cell. And the post-thermal process was also optimized by varying the process conditions of peak temperature. The optimized solar cell efficiency on a 6-inch mono-Si wafer was 18.28%, which was the one of the world best performances. It meaned that the newly developed Aa-paste could be adopted to fabricate a commercial bulk Si solar cell.
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Energy Materials : Thermal Process Optimization of Pb-free Ag-paste and Evaluation of Electrical Properties in Mono-Si Solar Cell
Ji Hyun Jeong, Sung Jin Kim, Chang Rok Son, Soon Chul Ur, Soon Yong Kweon
J Electr Electron Mater 2011;24(10):844-849.   Published online October 1, 2011
Two kind of Ag-pastes were prepared for integrating the bulk Si solar cell. One is the Ag-paste with Pb-based glass frit and the other is that with Bi-based glass frit. The pastes were the mixture of 84 wt% Ag, 2 wt% glass frit, 11 wt% solvent of buthyl cabitol acetate, and 2 wt% additives. After fabricating the Ag-pastes, they was coated on a SiN(x)/n+/p- stacks of a commercial mono-Si solar cell. The solar cell efficiency was 17.6% in the case of the Pb-based Ag-paste. However that was 16.2% in the solar cell integrated with the Bi-based Ag-paste. The lower performance in Bi-based Ag-paste was caused by the higher series resistance and the lower shunt resistance in comparison with the Pb-based Ag-paste.
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