铅锡二元钙钛矿太阳能电池空穴传输层的选择

Organic Photonics + Electronics Pub Date : 2023-10-01 DOI:10.1117/12.2678004

C. Howlader, W. Geerts, Maggie Chen

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摘要

空穴传输层(HTLs)对有机和有机-无机太阳能电池的性能有着重要的影响。在本实验中，我们研究了Pb-Sn二元钙钛矿太阳能电池(PSCs)的HTLs，以最大化功率转换效率(PCE)。选择CuI、PTAA和PEDOT:PSS作为HTLs制备MAPb0.75Sn0.25(I0.50Br0.50)3钙钛矿太阳能电池。采用ITO/HTL/钙钛矿/C60/BCP/Al材料堆叠的倒p-i-n结构制备太阳能电池。对于含有CuI、PTAA和PEDOT:PSS作为html的PSCs，在其他实验条件不变的情况下，我们获得的PCE分别为3.81%、3.11%和6.5%。此外，基于PEDOT:PSS HTL的太阳能电池与基于CuI和PTAA HTL的二元钙钛矿太阳能电池相比，具有更高的16.37 mA/cm2的短路电流。对于这些二进制PSCs, PEDOT:PSS是最大限度地提高功率转换效率的最佳选择。

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Selection of hole transport layer for Pb-Sn binary perovskite solar cells

Hole transport layers (HTLs) have a significant role in the performance of organic and organic-inorganic solar cells. In this experiment, we have investigated HTLs for Pb-Sn binary perovskite solar cells (PSCs) to maximize the power conversion efficiency (PCE). CuI, PTAA, and PEDOT:PSS were chosen as HTLs to fabricate the MAPb0.75Sn0.25(I0.50Br0.50)3 perovskite solar cells. The solar cells were fabricated using an inverted p-i-n structure where we used ITO/HTL/Perovskite/C60/BCP/Al materials stack. For PSCs containing CuI, PTAA and PEDOT:PSS as HTL, we obtained the PCE of 3.81%, 3.11 and 6.5%, respectively, with unchanged other experimental condition. Also, PEDOT:PSS HTL-based solar cells deliver higher short circuit current of 16.37 mA/cm2 compared to CuI and PTAA HTL based binary perovskite solar cells. For these binary PSCs, PEDOT:PSS is the best choice to maximize power conversion efficiency.

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Organic Photonics + Electronics

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