Ultrafast Spontaneous Localization of a Jahn-Teller Exciton Polaron in Two-Dimensional Semiconducting CrI3 by Symmetry Breaking

The excited state species and properties in low-dimensional semiconductors can be completely redefined by electron-lattice coupling or a polaronic effect. Here, by combining ultrafast broadband pump–probe spectroscopy and first-principles GW and Bethe-Salpeter equation calculations, we show semicond...

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Published in:Nano letters 2022-11, Vol.22 (21), p.8755-8762
Main Authors: Li, Xufeng, Wang, Aolei, Chen, Hailong, Tao, Weijian, Chen, Zeng, Zhang, Chi, Li, Yujie, Zhang, Yiran, Shang, Honghui, Weng, Yu-Xiang, Zhao, Jin, Zhu, Haiming
Format: Article
Language:English
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Summary:The excited state species and properties in low-dimensional semiconductors can be completely redefined by electron-lattice coupling or a polaronic effect. Here, by combining ultrafast broadband pump–probe spectroscopy and first-principles GW and Bethe-Salpeter equation calculations, we show semiconducting CrI3 as a prototypical 2D polaronic system with characteristic Jahn-Teller exciton polaron induced by symmetry breaking. A photogenerated electron and hole in CrI3 localize spontaneously in ∼0.9 ps and pair geminately to a Jahn-Teller exciton polaron with elongated Cr–I octahedra, large binding energy, and an unprecedentedly small exciton-exciton annihilation rate constant (∼10–20 cm3 s–1). Coherent phonon dynamics indicates the localization is mainly triggered by the coherent nuclear vibration of the I–Cr–I out-of-plane stretch mode at 128.5 ± 0.1 cm–1. The excited state Jahn-Teller exciton polaron in CrI3 broadens the realm of 2D polaron systems and reveals the decisive role of coupled electron-lattice motion on excited state properties and exciton physics in 2D semiconductors.
ISSN:1530-6984
1530-6992
DOI:10.1021/acs.nanolett.2c03689