Moiré ferroelectricity modulates light emission from a semiconductor monolayer

Dong Seob Kim; Chengxin Xiao; Roy C. Dominguez; Zhida Liu; Hamza Abudayyeh; Kyoungpyo Lee; Rigo Mayorga-Luna; Hyunsue Kim; Kenji Watanabe; Takashi Taniguchi; Chih-Kang Shih; Yoichi Miyahara; Wang Yao; Xiaoqin Li

doi:10.1126/sciadv.adt7789

論文 Moiré ferroelectricity modulates light emission from a semiconductor monolayer

Dong Seob Kim ; Chengxin Xiao ; Roy C. Dominguez ; Zhida Liu ; Hamza Abudayyeh ; Kyoungpyo Lee ; Rigo Mayorga-Luna ; Hyunsue Kim ; Kenji Watanabe (National Institute for Materials Science) ; Takashi Taniguchi (National Institute for Materials Science) ; Chih-Kang Shih ; Yoichi Miyahara ; Wang Yao ; Xiaoqin Li

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Dong Seob Kim, Chengxin Xiao, Roy C. Dominguez, Zhida Liu, Hamza Abudayyeh, Kyoungpyo Lee, Rigo Mayorga-Luna, Hyunsue Kim, Kenji Watanabe, Takashi Taniguchi, Chih-Kang Shih, Yoichi Miyahara, Wang Yao, Xiaoqin Li. Moiré ferroelectricity modulates light emission from a semiconductor monolayer. Science Advances. 2025, 11 (19), eadt7789. https://doi.org/10.1126/sciadv.adt7789

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(abstract)

Semiconductor moire ́ systems, characterized by their periodic spatial light emission, unveil a new paradigm of active metasurfaces. Here, we show that ferroelectric moire ́ domains formed in a twisted hexagonal boron nitride (t-hBN) substrate can modulate light emission from an adjacent semiconductor MoSe2 monolayer, enhancing its functionality as an active metasurface. The electrostatic potential at the surface of the t-hBN substrate provides a simple way to confine excitons in the MoSe2 monolayer. The excitons confined within the domains and at the domain walls are spectrally separated due to a pronounced Stark shift. Moreover, the patterned light emission can be dynamically controlled by electrically gating the ferroelectric domains, introducing a novel functionality beyond conventional semiconductor moire ́ systems. Our findings chart an exciting pathway for integrating nanometer- scale moire ́ ferroelectric domains with various optically active functional layers, paving the way for advanced nanophotonic applications.

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