Islam Md Arif Ul, Kato Taito, Kato Shinya, Soga Tetsuo
Department of Electrical and Mechanical Engineering, Nagoya Institute of Technology, Gokiso-cho, Showa-Ku, Nagoya 466-8555, Japan.
Department of Physics, University of Barishal, Barishal 8200, Bangladesh.
ACS Appl Mater Interfaces. 2024 Oct 9;16(40):53904-53917. doi: 10.1021/acsami.4c11816. Epub 2024 Sep 25.
The growing interest in high-efficiency solar energy technologies has driven research on multijunction solar cells to flourish over the last several years. This study sheds light on the optical, structural, and morphological aspects of the (CHNH)BiI ((MA)BiI) film by fabricating and analyzing it experimentally. This thorough investigation lays the groundwork for more research into the film's possible uses in solar cell technology. We performed simulations to enhance the efficiency of two-terminal (2T) perovskite/perovskite double junction and perovskite/perovskite/c-Si triple-junction solar cells (TJSC) by using the MABiI material. The power conversion efficiency was greatly increased by using 2T triple-junction solar cells; the increase was around 116.59% from single junction (13.80-29.89%) and 31.91% from double junction (22.66-29.89%). As far as we know, this is the first investigation of the efficacy of MABiI as a top layer in multijunction tandem configurations. This revolutionary approach allows both academics and industry experts to produce cost-effective and efficient tandem solar cells, thereby enhancing earth-based solar energy development.
在过去几年中,对高效太阳能技术日益增长的兴趣推动了多结太阳能电池的研究蓬勃发展。本研究通过对(CHNH)BiI((MA)BiI)薄膜进行实验制备和分析,揭示了其光学、结构和形态方面的特性。这一深入研究为进一步探索该薄膜在太阳能电池技术中的潜在应用奠定了基础。我们进行了模拟,以通过使用MABiI材料提高双端(2T)钙钛矿/钙钛矿双结和钙钛矿/钙钛矿/c-Si三结太阳能电池(TJSC)的效率。使用2T三结太阳能电池极大地提高了功率转换效率;与单结(13.80 - 29.89%)相比提高了约116.59%,与双结(22.66 - 29.89%)相比提高了31.91%。据我们所知,这是首次对MABiI作为多结串联结构顶层的功效进行研究。这种创新方法使学术界和行业专家都能够生产出具有成本效益且高效的串联太阳能电池,从而推动地面太阳能能源的发展。
