Thermodynamically stabilized β-CsPbI  3  –based perovskite solar cells with efficiencies &gt;18%

Wang, Yong; Dar, M. Ibrahim; Ono, Luis K.; Zhang, Taiyang; Kan, Miao; Li, Yawen; Zhang, Lijun; Wang, Xingtao; Yang, Yingguo; Gao, Xingyu; Qi, Yabing; Grätzel, Michaël; Zhao, Yixin

doi:10.1126/science.aav8680

articleScienceAug 8, 2019GREEN OA

Thermodynamically stabilized β-CsPbI 3 –based perovskite solar cells with efficiencies >18%

YWYong Wang MIM. Ibrahim Dar LKLuis K. Ono TZTaiyang Zhang MKMiao Kan

Shanghai Jiao Tong University · École Polytechnique Fédérale de Lausanne · +5 more institutions

PubMed

Indexed incrossrefpubmed

Abstract

Tetragonal phases for perovskite solar cells The power conversion efficiencies (PCEs) of all-inorganic perovskites are lower than those of materials with organic cations. This is in part because these materials have larger bandgaps. The cubic crystal phases of these materials also exhibit poor stability. Wang et al. synthesized the tetragonal β-phase of CsPbI 3 from HPbI 3 and CsI. The material exhibited higher stability and a more favorable bandgap, which allowed for PCEs of 15%. Passivation of the surface trap state with choline iodide boosted PCEs to 18%. Science , this issue p. 591

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Topics & keywords

Topics

Keywords

Perovskite (structure)
Iodide
Analytical Chemistry (journal)
Band gap
Layer (electronics)
Materials science
Phase (matter)
Ion

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Thermodynamically stabilized β-CsPbI 3 –based perovskite solar cells with efficiencies &gt;18%

Thermodynamically stabilized β-CsPbI 3 –based perovskite solar cells with efficiencies >18%