Central R&D Institute, LONGi Green Energy Technology Co. Ltd, Xian, China.
School of Materials, Institute for Solar Energy Systems, Sun Yat-sen University, Guangzhou, China.
Nature. 2024 Nov;635(8039):604-609. doi: 10.1038/s41586-024-08110-8. Epub 2024 Oct 1.
Back-contact silicon solar cells, valued for their aesthetic appeal because they have no grid lines on the sunny side, find applications in buildings, vehicles and aircraft and enable self-power generation without compromising appearance. Patterning techniques arrange contacts on the shaded side of the silicon wafer, which offers benefits for light incidence as well. However, the patterning process complicates production and results in power loss. We employed lasers to streamline the fabrication of back-contact solar cells and enhance the power-conversion efficiency. Using this approach, we produced a silicon solar cell that exceeded 27% efficiency. Hydrogenated amorphous silicon layers were deposited onto the wafer for surface passivation and to collect light-generated carriers. A dense passivating contact, which differs from conventional technology practice, was developed. Pulsed picosecond lasers operating at different wavelengths were used to create the back-contact patterns. The approach developed is a streamlined process for producing high-performance back-contact silicon solar cells, with a total effective processing time of about one-third that of the emerging mainstream technology. To meet the terawatt demand, we developed indium-less cells at 26.5% efficiency and precious silver-free cells at 26.2% efficiency. Thus, the integration of solar solutions into buildings and transportation is poised to expand with these technological advances.
背面接触硅太阳能电池因其在阳光充足的一侧没有栅线而具有美感,因此在建筑物、车辆和飞机中得到了应用,并且能够在不影响外观的情况下实现自发电。图案化技术在硅片的阴影侧安排接触,这对光入射也有好处。然而,图案化过程使生产复杂化,并导致功率损耗。我们使用激光来简化背面接触太阳能电池的制造并提高功率转换效率。通过这种方法,我们生产的硅太阳能电池的效率超过 27%。氢化非晶硅层被沉积在晶圆上,用于表面钝化和收集光生载流子。开发了一种致密的钝化接触,与传统技术实践不同。使用不同波长的脉冲皮秒激光来创建背面接触图案。开发的方法是生产高性能背面接触硅太阳能电池的简化工艺,总有效处理时间约为新兴主流技术的三分之一。为了满足 1 太瓦的需求,我们开发了效率为 26.5%的无铟电池和效率为 26.2%的无贵银电池。因此,随着这些技术的进步,太阳能解决方案有望在建筑物和交通运输中得到更广泛的应用。
