工业级纳米绒面多晶硅太阳电池的发射极扩散方阻调控其光电转换性能研究  被引量:1

Enhanced optoelectronic conversion performance of nano-textured multi-crystalline silicon solar cells through optimizing emitter sheet resistivity

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作  者:吕文辉 邱小永 赵庆国 姚春梅 何一峰 周海权 姚琪 陆波 LU Wen-hui;QIU Xiao-yong;ZHAO Qing-guo;YAO Chun-mei;HE Yi-feng;ZHOU Hai-quan;YAO Qi;LU Bo(Department of Applied Physics,Huzhou University,Huzhou,Zhejiang 313000;Zhejiang Beyondsun PV Co.,Ltd.,Huzhou,Zhejiang 313008;Zhejiang Trunsun Solar Co.,Ltd,Huzhou,Zhejiang 313008)

机构地区:[1]湖州师范学院理学院应用物理系,浙江湖州313000 [2]浙江贝盛光伏股份有限公司,浙江湖州313008 [3]浙江创盛光能源有限公司,浙江湖州313008

出  处:《光电子.激光》2020年第7期675-681,共7页Journal of Optoelectronics·Laser

基  金:浙江省重点技术创新项目,湖州市科技计划项目(2018ZD2009,2019ZD2012,2019KT31);湖州市南太湖创新团队资助项目。

摘  要:本文制备了工业级纳米绒面多晶硅太阳电池,研究了发射极扩散方阻对其光电转换性能的影响。结果表明:提高发射极扩散方阻能够有效地提升电池的开路电压、短路电流,但填充因子相对降低。通过分析关键光电参数,其原因归结为:提高发射极扩散方阻有利于降低发射极及其表面载流子复合,但过高的发射极扩散方阻将导致发射极与金属栅线接触不良。采用优化的发射极扩散方阻,纳米绒面相对于微米绒面多晶硅太阳电池具有改善的光电转换性能,产线均值光电转换效率达到了19.20%。基于上述研究结果,讨论了进一步通过调控发射极扩散方阻来优化纳米绒面多晶硅太阳电池的方法。Nano-textured multi-crystalline silicon(mc-Si) solar cells are successfully fabricated on an industrial scale and the effect of emitter sheet resistivity on photoelectric conversion is explored.The experimental results show enhanced short-circuit current and open-circuit voltage with increasing emitter sheet resistivity for the nano-textured mc-Si solar cell.It may be attributed to reduced recombination of charge carriers in the nano-emitter.However,the fill factor is reduced with increasing emitter sheet resistivity due to deteriorating contact between the metal grid and the nano-emitter.The nano-textured mc-Si solar cells with optimizing emitter sheet resistivity exhibit an enhanced optoelectronic conversion in comparison to micro-textured mc-Si solar cells,and high power conversion efficiency of up to 19.20%.Based on the results,we discussed how to further improve the photoelectric conversion performance of the nano-textured mc-Si solar cell through increasing emitter sheet resistivity.

关 键 词:纳米绒面多晶硅太阳电池 发射极扩散方阻 光电转换效率 

分 类 号:TN40[电子电信—微电子学与固体电子学]

 

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