Synergetic Enhancement of Quantum Yield and Exciton Lifetime of Monolayer WS2 by Proximal Metal Plate and Negative Electric Bias

Tran, Trang Thu; Lee, Yongjun; Roy, Shrawan; Tran, Thi Uyen; Kim, Youngbum; Taniguchi, Takashi; Watanabe, Kenji; Milošević, Milorad V.; Lim, Seong Chu; Chaves, Andrey; Jang, Joon I.; Kim, Jeongyong

doi:10.1021/acsnano.3c05667

ACS Nano

2023

DOI: 10.1021/acsnano.3c05667

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Synergetic Enhancement of Quantum Yield and Exciton Lifetime of Monolayer WS₂ by Proximal Metal Plate and Negative Electric Bias

Trang Thu Tran,

Yongjun Lee,

Shrawan Roy

et al.

Abstract: The efficiency of light emission is a critical performance factor for monolayer transition metal dichalcogenides (1L-TMDs) for photonic applications. While various methods have been studied to compensate for lattice defects to improve the quantum yield (QY) of 1L-TMDs, exciton–exciton annihilation (EEA) is still a major nonradiative decay channel for excitons at high exciton densities. Here, we demonstrate that the combined use of a proximal Au plate and a negative electric gate bias (NEGB) for 1L-WS2 provides… Show more

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2024

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Cited by 3 publications

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Fluorine‐Free, Auger‐Resistive, and UV‐Emitting MXene Quantum Dots

Sharbirin,

Fadli,

Ariffin

et al. 2024

Advanced Optical Materials

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MXene quantum dots (MQDs), in contrast to their precursor metallic MXenes, display photoluminescence (PL), and with the advantages of non‐toxicity, ease of synthesis, and low cost, they are promising quantum materials for optoelectronic and photonic devices. However, as‐synthesized MQDs suffer from low quantum yield (QY) and a large Stokes shift, limiting efficient UV emission, and are subject to Auger recombination, that is, a severe decline of QY and PL lifetime with increasing exciton density. Here, fluorine‐free Ti2N MQDs are synthesized using a single‐step solvothermal process, which emits UV light of a peak wavelength of 370 nm with a greatly improved QY of 17.4%, and superior resistance to Auger recombination. Band structure calculations and X‐ray photoelectron spectroscopy measurements indicate that Ti2N MQDs synthesized by using the solvothermal process are free of fluorine which is normally prevalent on the surfaces of MQDs prepared by an ordinary hydrothermal process. The results shed light on the mechanism of improving QY and mitigating Auger recombination of MQDs helping their practical applications, especially for photonic devices in the UV range.

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Fluorine‐Free, Auger‐Resistive, and UV‐Emitting MXene Quantum Dots

Sharbirin,

Fadli,

Ariffin

et al. 2024

Advanced Optical Materials

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show abstract

Highly enhanced UV absorption and light emission of monolayer WS2 through hybridization with Ti2N MXene quantum dots and g-C3N4 quantum dots

Sharbirin,

Kong,

Mato

et al. 2024

OEA

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Two-dimensional (2D) transition metal dichalcogenides (TMD) are atomically thin semiconductors with promising optoelectronic applications across the visible spectrum. However, their intrinsically weak light absorption and the low photoluminescence quantum yield (PLQY) restrict their performance and potential use, especially in ultraviolet (UV) wavelength light ranges. Quantum dots (QD) derived from 2D materials (2D/QD) provide efficient light absorption and emission of which energy can be tuned for desirable light wavelength. In this study, we greatly enhanced the photon absorption and PLQY of monolayer (1L) tungsten disulfide (WS 2 ) in the UV range via hybridization with 2D/QD, particularly titanium nitride MXene QD (Ti 2 N MQD) and graphitic carbon nitride QD (GCNQD). With the hybridization of MQD or GCNQD, 1L-WS 2 showed a maximum PL enhancement by 15 times with 300 nm wavelength excitation, while no noticeable enhancement was observed when the excitation photon energy was less than the bandgap of the QD, indicating that UV absorption by the QD played a crucial role in enhancing the light emission of 1L-WS 2 in our 0D/2D hybrid system. Our findings present a convenient method for enhancing the photo-response of 1L-WS 2 to UV light and offer exciting possibilities for harvesting UV energy using 1L-TMD.

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Renormalization of Fermi Velocity and Band Gap in a Two-Dimensional System near a Conducting Plate at Finite Temperature

Silva,

Braga,

Pires

et al. 2024

Condensed Matter

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In a recent work, it was demonstrated within the framework of Pseudo Quantum Electro-dynamics (PQED) at zero temperature that the logarithmic renormalization of the Fermi velocity in a graphene sheet is inhibited by the presence of a single parallel conducting plate. In the present study, aiming for a more general and realistic approach, we explore the renormalization of the Fermi velocity and mass (band gap) in a two-dimensional system influenced by a conducting plate at finite temperature, also in the context of PQED. Our findings refine previous results in the literature and provide valuable insights for future investigations on the effects of external conditions within PQED.

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Synergetic Enhancement of Quantum Yield and Exciton Lifetime of Monolayer WS₂ by Proximal Metal Plate and Negative Electric Bias

Cited by 3 publications

References 64 publications

Fluorine‐Free, Auger‐Resistive, and UV‐Emitting MXene Quantum Dots

Fluorine‐Free, Auger‐Resistive, and UV‐Emitting MXene Quantum Dots

Highly enhanced UV absorption and light emission of monolayer WS<sub>2</sub> through hybridization with Ti<sub>2</sub>N MXene quantum dots and g-C<sub>3</sub>N<sub>4</sub> quantum dots

Renormalization of Fermi Velocity and Band Gap in a Two-Dimensional System near a Conducting Plate at Finite Temperature

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