为稳定高效的倒置钙钛矿太阳能电池设计路易斯碱分子。

Rational design of Lewis base molecules for stable and efficient inverted perovskite solar cells.

机构信息

Department of Physics and Astronomy and Wright Center for Photovoltaics Innovation and Commercialization, The University of Toledo, Toledo, OH 43606, USA.

Department of Chemistry, University of Washington, Seattle, WA 98195, USA.

出版信息

Science. 2023 Feb 17;379(6633):690-694. doi: 10.1126/science.ade3970. Epub 2023 Feb 16.

DOI:10.1126/science.ade3970

PMID:36795809

Abstract

Lewis base molecules that bind undercoordinated lead atoms at interfaces and grain boundaries (GBs) are known to enhance the durability of metal halide perovskite solar cells (PSCs). Using density functional theory calculations, we found that phosphine-containing molecules have the strongest binding energy among members of a library of Lewis base molecules studied herein. Experimentally, we found that the best inverted PSC treated with 1,3-bis(diphenylphosphino)propane (DPPP), a diphosphine Lewis base that passivates, binds, and bridges interfaces and GBs, retained a power conversion efficiency (PCE) slightly higher than its initial PCE of ~23% after continuous operation under simulated AM1.5 illumination at the maximum power point and at ~40°C for >3500 hours. DPPP-treated devices showed a similar increase in PCE after being kept under open-circuit conditions at 85°C for >1500 hours.

摘要

路易斯碱分子在界面和晶界（GBs）处与未配位的铅原子结合，已知可提高金属卤化物钙钛矿太阳能电池（PSCs）的耐久性。通过密度泛函理论计算，我们发现，在所研究的路易斯碱分子库中，含膦分子具有最强的结合能。实验上，我们发现，用 1,3-双（二苯基膦基）丙烷（DPPP）处理的最佳倒置 PSC 是一种二膦路易斯碱，可钝化、结合和桥连界面和 GBs，在模拟 AM1.5 照明下以最大功率点和约 40°C 持续运行超过 3500 小时后，其功率转换效率（PCE）仅略高于初始 PCE 的~23%。在 85°C 下保持开路条件超过 1500 小时后，DPPP 处理的器件的 PCE 也出现了类似的提高。

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为稳定高效的倒置钙钛矿太阳能电池设计路易斯碱分子。

Rational design of Lewis base molecules for stable and efficient inverted perovskite solar cells.

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