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(90-x)Te O2–x Zn O–10Bi2O3(x = 15, 17.5, 20 and 22.5, in mol%) and 70 Te O2–20Zn O–(10-y)Bi2O3-y Na2O(y = 1, 3, 5, 7, and 10, in mol%) glasses, and the corresponding Ag paste were prepared in order to prove that the Te-based glass frit could be applied to Ag pastes to fabricate Ag electrode. The relationship between structure and properties of the glasses was analyzed. The effects of glass frit on the microstructure, adhesion force, and resistivity of the Ag electrode were studied. The microstructure of Ag electrodes and the phase analysis of interface between Ag electrodes and the Si wafer were investigated using SEM and XRD. Finally, the 70 Te O2–20Zn O–5Bi2O3–5Na2O glass showed better performance in the paste. What is more, Ag crystallites could be found on the Si wafer. These results suggested that the Te-based glass frit could react with Si Nxanti-reflecting coating and Si to serve as a medium for forming Ag crystallites.
(90-x) Te O2-x ZnO-10Bi2O3 (x = 15, 17.5, 20 and 22.5, in mol%) and 70 Te O2-20Zn O- (10-y) 3, 5, 7, and 10, in mol%) glasses, and the corresponding Ag paste were prepared in order to prove that the Te-based glass frit could be applied to Ag pastes to fabricate Ag electrode. The relationship between structure and properties The effects of glass frit on the microstructure, adhesion force, and resistivity of the Ag electrode were studied. The microstructure of Ag electrodes and the phase analysis of interface between Ag electrodes and the Si wafer were investigated using SEM and XRD. Finally, the 70 Te O2-20Zn O-5Bi2O3-5Na2O glass showed better performance in the paste. What is more, Ag crystallites could be found on the Si wafer. These results suggest that the Te-based glass frit could react with Si Nxanti-reflecting coating and Si to serve as a medium for forming Ag crystallites.