Tuning exciton emission via ferroelectric polarization at a heterogeneous interface between a monolayer transition metal dichalcogenide and a perovskite oxide membrane

We demonstrate the integration of a thin BaTiO\(_3\) (BTO) membrane with monolayer MoSe\(_2\) in a dual gate device that enables in-situ manipulation of the BTO ferroelectric polarization with a voltage pulse. While two-dimensional (2D) transition metal dichalcogenides (TMDs) offer remarkable adapta...

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Published in	arXiv.org
Main Authors	Choi, Jaehong, Crust, Kevin J, Li, Lizhong, Lee, Kihong, Luo, Jialun, Jae-Pil So, Watanabe, Kenji, Taniguchi, Takashi, Hwang, Harold Y, Mak, Kin Fai, Shan, Jie, Fuchs, Gregory D
Format	Paper
Language	English
Published	Ithaca Cornell University Library, arXiv.org 18.04.2024
Subjects	Chalcogenides Current carriers Excitons Ferroelectric materials Ferroelectricity Functional materials Membranes Monolayers Perovskites Photoluminescence Polarization Sensors Transition metal compounds Two dimensional materials
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Abstract	We demonstrate the integration of a thin BaTiO\(_3\) (BTO) membrane with monolayer MoSe\(_2\) in a dual gate device that enables in-situ manipulation of the BTO ferroelectric polarization with a voltage pulse. While two-dimensional (2D) transition metal dichalcogenides (TMDs) offer remarkable adaptability, their hybrid integration with other families of functional materials beyond the realm of 2D materials has been challenging. Released functional oxide membranes offer a solution for 2D/3D integration via stacking. 2D TMD excitons can serve as a local probe of the ferroelectric polarization in BTO at a heterogeneous interface. Using photoluminescence (PL) of MoSe\(_2\) excitons to optically readout the doping level, we find that the relative population of charge carriers in MoSe\(_2\) depends sensitively on the ferroelectric polarization. This finding points to a promising avenue for future-generations versatile sensing devices with high sensitivity, fast read-out, and diverse applicability for advanced signal processing.
AbstractList	We demonstrate the integration of a thin BaTiO\(_3\) (BTO) membrane with monolayer MoSe\(_2\) in a dual gate device that enables in-situ manipulation of the BTO ferroelectric polarization with a voltage pulse. While two-dimensional (2D) transition metal dichalcogenides (TMDs) offer remarkable adaptability, their hybrid integration with other families of functional materials beyond the realm of 2D materials has been challenging. Released functional oxide membranes offer a solution for 2D/3D integration via stacking. 2D TMD excitons can serve as a local probe of the ferroelectric polarization in BTO at a heterogeneous interface. Using photoluminescence (PL) of MoSe\(_2\) excitons to optically readout the doping level, we find that the relative population of charge carriers in MoSe\(_2\) depends sensitively on the ferroelectric polarization. This finding points to a promising avenue for future-generations versatile sensing devices with high sensitivity, fast read-out, and diverse applicability for advanced signal processing.
Author	Choi, Jaehong Lee, Kihong Taniguchi, Takashi Luo, Jialun Hwang, Harold Y Fuchs, Gregory D Li, Lizhong Shan, Jie Watanabe, Kenji Jae-Pil So Mak, Kin Fai Crust, Kevin J
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SubjectTerms	Chalcogenides Current carriers Excitons Ferroelectric materials Ferroelectricity Functional materials Membranes Monolayers Perovskites Photoluminescence Polarization Sensors Transition metal compounds Two dimensional materials
Title	Tuning exciton emission via ferroelectric polarization at a heterogeneous interface between a monolayer transition metal dichalcogenide and a perovskite oxide membrane
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