In this paper, we present the performance of two solid-state dye sensitized solar cells (ssDSSCs) through SCAPS-1D simulation. The five layers of proposed structures are in solid-state. Recombination reactions and defects in materials were not considered to obtain maximum efficiency. The conjugated polymer BEHP-co-MEH PPV (poly{[2-[2′,5′-bis(2″-ethylhexyloxy)phenyl]-1,4phenylenevin-ylene]-co-[2-methoxy-5-(2′-ethylhexyloxy)-1,4-phenylenevin-ylene]}) and $${\text{MoO}}_{2} /{\text{MoO}}_{3}$$ MoO 2 / MoO 3 are studied by first time in a ssDSSCs using SCAPS-1D program. The current–voltage characteristic (I–V or J–V) and Quantum Efficiency behavior is analyzed and compared. The efficiencies achieved with BEHP-co-MEH PPV/ $${\text{MoO}}_{2} {\text{MoO}}_{3}$$ MoO 2 MoO 3 and BEHP-co-MEH PPV/PEDOT:PSS are 8.42% and 7.95%, respectively. A solar cell with these characteristics can be included in a manufacturing workflow allowing its large-scale production.

中文翻译：

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染料敏化太阳能电池的新架构：SCAPS-1D 模拟研究

在本文中，我们通过 SCAPS-1D 模拟展示了两种固态染料敏化太阳能电池 (ssDSSCs) 的性能。提出的五层结构是固态的。不考虑复合反应和材料缺陷以获得最大效率。共轭聚合物BEHP-co-MEH PPV(聚{[2-[2',5'-双(2″-乙基己氧基)苯基]-1,4亚苯基亚乙烯基]-co-[2-甲氧基-5-(2 '-乙基己氧基)-1,4-亚苯基亚乙烯基]})和$${\text{MoO}}_{2} /{\text{MoO}}_{3}$$ MoO 2 / MoO 3 进行了研究第一次在 ssDSSCs 中使用 SCAPS-1D 程序。分析和比较了电流-电压特性（I-V 或 J-V）和量子效率行为。使用 BEHP-co-MEH PPV/ $${\text{MoO}}_{2} {\text{MoO}}_{3}$$ MoO 2 MoO 3 和 BEHP-co-MEH PPV/PEDOT 实现的效率:PSS 分别为 8.42% 和 7.95%。