Selective enriching of trionic emission in a WS2-ZnO hybrid through type-II band alignment

Strategies to modulate the exciton dynamics in ultrathin two-dimensional (2D) semiconductors have always been an integral component in the bid towards improved optoelectronics and quantum photonic devices. The capability to non-destructively tune the relaxation dynamics, valley polarization, binding...

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Veröffentlicht in:	Science China. Information sciences 2023-06, Vol.66 (6), p.160405, Article 160405
Hauptverfasser:	Leong, Jin Feng, Lim, Kim Yong, Wu, Xiao, Xu, Qinghua, Sow, Chorng Haur, Poh, Eng Tuan
Format:	Artikel
Sprache:	eng
Schlagworte:	Binding energy Charge transfer Computer Science Design Emission Emitters Excitons Heterostructures Information Systems and Communication Service Low dimensional semiconductors Microscopy Nanomaterials Optoelectronics Research Paper Semiconductors Thin films Trions Zinc oxide Zinc oxides
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creator	Leong, Jin Feng Lim, Kim Yong Wu, Xiao Xu, Qinghua Sow, Chorng Haur Poh, Eng Tuan
description	Strategies to modulate the exciton dynamics in ultrathin two-dimensional (2D) semiconductors have always been an integral component in the bid towards improved optoelectronics and quantum photonic devices. The capability to non-destructively tune the relaxation dynamics, valley polarization, binding energies, and population ratio of various excitonic species has been well-sought for advanced applications. Through the rationale design of a WS 2 -ZnO hybrid platform, we present a distinct increment in the trion-to-exciton ratio for WS 2 emission across a patterned heterostructure. The shift in dominant excitonic species arose due to the efficient charge segregation at the spatially confined interface of the type-II heterostructure. Owing to the charge transfer process, the resultant emission profile presents up to four times amplification in the trion-to-exciton ratio, with temperature variable trion binding energies up to 59 meV. Since trions possess non-zero charge and spin degrees of freedom, the provision of a higher density of trions with increased binding stability would encourage new opportunities for reproducible optoelectronics and quantum emitters.
doi_str_mv	10.1007/s11432-022-3719-4
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subjects	Binding energy Charge transfer Computer Science Design Emission Emitters Excitons Heterostructures Information Systems and Communication Service Low dimensional semiconductors Microscopy Nanomaterials Optoelectronics Research Paper Semiconductors Thin films Trions Zinc oxide Zinc oxides
title	Selective enriching of trionic emission in a WS2-ZnO hybrid through type-II band alignment
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