Stable perovskite solar cells with efficiency exceeding 24.8% and 0.3-V voltage loss

Mingyu Jeong(Ulsan National Institute of Science and Technology), In Woo Choi(Kyungpook National University), Eun Min Go(Ulsan National Institute of Science and Technology), Yongjoon Cho(Ulsan National Institute of Science and Technology), Minjin Kim(Advanced Energy (United States)), Byongkyu Lee(Ulsan National Institute of Science and Technology), Seonghun Jeong(Ulsan National Institute of Science and Technology), Yimhyun Jo(Advanced Energy (United States)), Hyewon Choi(Advanced Energy (United States)), Jiyun Lee(Ulsan National Institute of Science and Technology), Jin‐Hyuk Bae(Kyungpook National University), Sang Kyu Kwak(Ulsan National Institute of Science and Technology), Dong Suk Kim(Advanced Energy (United States)), Changduk Yang(Ulsan National Institute of Science and Technology)
Science
September 25, 2020
10.1126/science.abb7167
Cited by 1,490

Abstract

Further improvement and stabilization of perovskite solar cell (PSC) performance are essential to achieve the commercial viability of next-generation photovoltaics. Considering the benefits of fluorination to conjugated materials for energy levels, hydrophobicity, and noncovalent interactions, two fluorinated isomeric analogs of the well-known hole-transporting material (HTM) Spiro-OMeTAD are developed and used as HTMs in PSCs. The structure-property relationship induced by constitutional isomerism is investigated through experimental, atomistic, and theoretical analyses, and the fabricated PSCs feature high efficiency up to 24.82% (certified at 24.64% with 0.3-volt voltage loss), along with long-term stability in wet conditions without encapsulation (87% efficiency retention after 500 hours). We also achieve an efficiency of 22.31% in the large-area cell.

Related Papers

No related papers found

Powered by citation graph analysis