期刊信息
  • 主管单位:
  • 上海市科学技术协会
  • 主办单位:
  • 上海有色金属学会
    上海理工大学
  • 名誉主编:
  • 陈兴章
  • 主    编:
  • 刘 平
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  • 国际标准刊号:
  • 2096-2983
  • 国内统一刊号:
  • 31-2125/TF
  • 单    价:
  • 8.00
  • 定    价:
  • 60.00
毛清华,王磊,徐勇俊,程露,盛钰清.共溶剂去除钙钛矿太阳能电池残留PbI2的研究[J].有色金属材料与工程,2024,45(6):10-15,52.
共溶剂去除钙钛矿太阳能电池残留PbI2的研究
Study on the removal for residue PbI2 in perovskite solar cells using co-solvent
  
DOI:10.13258/j.cnki.nmme.20240903002
中文关键词:  钙钛矿太阳能电池  PbI2  共溶剂
英文关键词:perovskite solar cells  PbI2  co-solvent
基金项目:国家自然科学基金资助项目(62241501);安徽省高校自然科学研究重点项目(2023AH051087)
作者单位E-mail
毛清华 安徽工业大学 微电子与数据科学学院, 安徽 马鞍山 243032  
王磊 安徽工业大学 微电子与数据科学学院, 安徽 马鞍山 243032  
徐勇俊 安徽工业大学 微电子与数据科学学院, 安徽 马鞍山 243032  
程露 安徽工业大学 微电子与数据科学学院, 安徽 马鞍山 243032  
盛钰清 安徽工业大学 微电子与数据科学学院, 安徽 马鞍山 243032 1026614193@qq.com 
摘要点击次数: 2
全文下载次数: 32
中文摘要:
      钙钛矿材料凭借其优异的性能可作为太阳能器件吸收层而备受关注。针对溶液法制备的钙钛矿吸收层薄膜残留PbI2问题,提出了去除—钝化—退火3步法策略。首先采用正丁醇与环己烷(体积比为1∶4)的共溶剂对钙钛矿薄膜进行清洗,随后使用含有4-三氟甲氧基苯乙基碘化胺(phenethylammonium iodide with trifluoromethoxy groups,CF3O-PEAI)的叔戊醇与环己烷(体积比为1∶4)的混合溶液钝化表面,最后进行退火处理。通过该策略不但能有效去除钙钛矿薄膜表面残留PbI2,且能使晶粒致密性更好、晶粒面积增大,整体优化了表面结晶形貌。制备的器件光电转换效率从17.93%提升至20.59%,相对提高了14.80%。研究结果表明,采用该策略在有效去除残留PbI2的同时,还能较好地修复清洗后的表面,最终使器件性能得到了提升。
英文摘要:
      Perovskite materials have attracted significant attentions as the absorbing layers in solar devices due to their outstanding performances. This study addresses the issue of residual PbI2 in perovskite absorber layers prepared via solution methods. A three-step strategy is presented involving cleaning-passivation-annealing. Firstly, the perovskite films were cleaned with a co-solvent with the volume ratio of n-butanol to cyclohexane of 1∶4. Subsequently, the surface was passivated with a volume ratio of tert-amyl alcohol to cyclohexane solution containing phenethylammonium iodide with trifluoromethoxy groups (CF3O-PEAI) of 1∶4. Finally, annealing was performed. The strategy not only effectively removes residual lead iodide from the perovskite film surface but also improves grain density and increases the grain area, thereby optimizes the overall surface crystal morphology. The power conversion efficiency of the devices increases from 17.93% to 20.59% with a relative increase of 14.80%. The results show that this strategy effectively remove the residual PbI2 and repair the cleaned surface, and finally improve the performance of the device.
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