>24 Silicon Heterojunction Solar Cells on Meyer Burger’s on Mass Production Tools and How Wafer Material Impacts Cell Parameters

摘要

The PV market has grown strongly in the last year again. More and more solar cell manufacturers focus on high efficiency solar cells with low cost. The industry is moving towards PERC Technology and the cell efficiency has been improving progressively. As the worldwide major PV market, China required since 2017 via `Top Runner' Program high performance cell/module for module power up to 325W on 60 cells. To reach this high performance, the hydrogenated amorphous (a-Si:H) /crystalline silicon (c-Si) hetero-junction technology(HJT) and other n-type technologies were discussed as the next candidate for mass production high efficiency solar cells beyond PERC. Additionally, HJT provides extra advantages: it offers a well suited application to achieve efficiencies above 23% with process temperatures below 200°C. The whole process flow is simple and with less process steps compared to the standard solar cell process [1]. HJT solar cells have >90% module bifaciality and a low temperature coefficient (-0.2 %/K), which provides additional benefit to the LCOE and output power for PV systems. The technology is compatible with extremely thin wafers below 130 μm for mass production conditions. The recent world record HJT cell with an efficiency of 26.33% on a 180 cm