Mono-crystalline silicon solar cells with a passivated emitter rear contact(PERC)configuration have attracted extensive attention from both industry and scientific communities.A record efficiency of 24.06%on p-type si...Mono-crystalline silicon solar cells with a passivated emitter rear contact(PERC)configuration have attracted extensive attention from both industry and scientific communities.A record efficiency of 24.06%on p-type silicon wafer and mass production efficiency around 22%have been demonstrated,mainly due to its superior rear side passivation.In this work,the PERC solar cells with a p-type silicon wafer were numerically studied in terms of the surface passivation,quality of silicon wafer and metal electrodes.A rational way to achieve a 24%mass-production efficiency was proposed.Free energy loss analyses were adopted to address the loss sources with respect to the limit efficiency of 29%,which provides a guideline for the design and manufacture of a high-efficiency PERC solar cell.展开更多
采用PC1D软件仿真分析钝化发射极及背接触(passivation emitter and rear contact,PERC)电池;模拟结果表明:降低电池的背表面复合速率有利于增强电池性能、提高电池长波响应。PERC电池由于背表面钝化可采用较低的背场厚度;背钝化层...采用PC1D软件仿真分析钝化发射极及背接触(passivation emitter and rear contact,PERC)电池;模拟结果表明:降低电池的背表面复合速率有利于增强电池性能、提高电池长波响应。PERC电池由于背表面钝化可采用较低的背场厚度;背钝化层中的表面电荷对高背表面复合速率的电池性能的提升作用显著,但在背表面复合速率较低时影响不大;实测得到PERC电池比常规全铝背接触电池的开路电压和短路电流分别增大1.56%和2.56%。展开更多
基金supported by the National Natural Science Foundation of China(No.61504155)。
文摘Mono-crystalline silicon solar cells with a passivated emitter rear contact(PERC)configuration have attracted extensive attention from both industry and scientific communities.A record efficiency of 24.06%on p-type silicon wafer and mass production efficiency around 22%have been demonstrated,mainly due to its superior rear side passivation.In this work,the PERC solar cells with a p-type silicon wafer were numerically studied in terms of the surface passivation,quality of silicon wafer and metal electrodes.A rational way to achieve a 24%mass-production efficiency was proposed.Free energy loss analyses were adopted to address the loss sources with respect to the limit efficiency of 29%,which provides a guideline for the design and manufacture of a high-efficiency PERC solar cell.
文摘采用PC1D软件仿真分析钝化发射极及背接触(passivation emitter and rear contact,PERC)电池;模拟结果表明:降低电池的背表面复合速率有利于增强电池性能、提高电池长波响应。PERC电池由于背表面钝化可采用较低的背场厚度;背钝化层中的表面电荷对高背表面复合速率的电池性能的提升作用显著,但在背表面复合速率较低时影响不大;实测得到PERC电池比常规全铝背接触电池的开路电压和短路电流分别增大1.56%和2.56%。