Abstract: Based on 100 wt % of the alloy aluminum paste, the alloy aluminum paste includes the following components in percentages by weight: 35-56.5% of an aluminum-silicon alloy powder, 17.5-37.5% of an aluminum powder, 1-2% of a lead-free glass powder, 15-20% of an organic solvent, 3-5% of ethyl cellulose, 0.05-0.1% of a thixotropic agent and 0.5-1.5% of a dispersant. The alloy paste can be applied to a PERC solar cell having a passivation coating opening consisting of 0.5-1% of the area of the solar cell. When the alloy aluminum paste is applied to a PERC solar cell having a low opening rate, particularly a rear electrode having a passivation coating opening consisting of 0.5-1% of the area of the solar cell.

Abstract: A method for preparing a P-type crystalline silicon rear electrode, comprising: printing an all-aluminum paste on a P-type crystalline silicon rear passivation layer, then printing a linear interlayer-glass paste on the all-aluminum paste, and finally overprinting rear silver electrodes on the linear middle layer-glass paste. In a solar cell prepared using the method, good contact with silver and aluminum is kept without causing damage to the passivation layer and compromising the conductivity. In the present invention, a complete all-aluminum back surface field can be formed, leading to an improved field passivation property of an electrode region and reduced carrier recombination.

Abstract: A low temperature-sintering rear silver paste for an all-aluminum back surface field crystalline silicon solar cell includes the following components in part by mass: 50-70 parts of a nano-silver powder, 20-50 parts of an organic vehicle, 0.1-0.3 parts of a dispersant and 0.1-0.3 parts of a thixotropic agent. The nano-silver powder adopted in the present invention has good sintering activity, and thus is suitable for sintering at low temperature. In addition, part of the silver paste will permeate into a rear aluminum paste in the process of sintering to form good silver-aluminum contact.

Abstract: Based on 100 wt % of the alloy aluminum paste, the alloy aluminum paste includes the following components in percentages by weight: 35-56.5% of an aluminum-silicon alloy powder, 17.5-37.5% of an aluminum powder, 1-2% of a lead-free glass powder, 15-20% of an organic solvent, 3-5% of ethyl cellulose, 0.05-0.1% of a thixotropic agent and 0.5-1.5% of a dispersant. The alloy paste can be applied to a PERC solar cell having a passivation coating opening consisting of 0.5-1% of the area of the solar cell. When the alloy aluminum paste is applied to a PERC solar cell having a low opening rate, particularly a rear electrode having a passivation coating opening consisting of 0.5-1% of the area of the solar cell.

Abstract: A method for preparing a P-type crystalline silicon rear electrode, comprising: printing an all-aluminum paste on a P-type crystalline silicon rear passivation layer, then printing a linear interlayer-glass paste on the all-aluminum paste, and finally overprinting rear silver electrodes on the linear middle layer-glass paste. In a solar cell prepared using the method, good contact with silver and aluminum is kept without causing damage to the passivation layer and compromising the conductivity. In the present invention, a complete all-aluminum back surface field can be formed, leading to an improved field passivation property of an electrode region and reduced carrier recombination.