Deterministic and scalable generation of exciton emitters in 2D semiconductor nanodisks
In recent cryogenic measurements, narrow photoluminescence (PL) peaks due to diverse quantum emitters have been found at random locations of monolayer transition metal dichalcogenides (TMDs), which impedes precise optoelectronic applications. Thus, it is of great importance to truly regulate these l...
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sg-ntu-dr.10356-1560612023-02-28T20:02:57Z Deterministic and scalable generation of exciton emitters in 2D semiconductor nanodisks Feng, Shun Zou, Chenji Cong, Chunxiao Shang, Jingzhi Zhang, Jing Chen, Yu Wu, Lishu Zhang, Hongbo Huang, Zumeng Gao, Weibo Zhang, Baile Huang, Wei Yu, Ting School of Physical and Mathematical Sciences Science::Physics::Optics and light Engineering::Materials::Nanostructured materials Defect-Bound Excitons Lateral Size Confinement In recent cryogenic measurements, narrow photoluminescence (PL) peaks due to diverse quantum emitters have been found at random locations of monolayer transition metal dichalcogenides (TMDs), which impedes precise optoelectronic applications. Thus, it is of great importance to truly regulate these localized exciton emissions by deterministic spatial and spectral control. Here, such desired emission is primarily demonstrated in monolayer WS2 nanodisks. The size-dependent PL studies indicate the clear evolution from the broad defect-band emission to a set of spectrally isolated narrow peaks (linewidth of ≈ sub nm) at 4.2 K, which is associated with the prevailing effect of edge defects with the shrinkage of the disk diameter, providing a narrow emission energy range for bound excitons. When the disk diameter is reduced to 300 nm, more than 80% of emitter peaks are located between 610 and 616 nm, verifying the effective control of emission wavelength of these photon emitters. Furthermore, the strategy is extended to prepare scalable WS2 nanodisk arrays based on flakes of hundreds of µm, and size-dependent narrow emissions of WSe2 nanodisks are testified. This work develops a defect-engineering strategy to generate localized exciton emitters toward the promising TMD-based optoelectronic applications. Ministry of Education (MOE) National Research Foundation (NRF) Submitted/Accepted version S.F. and C.Z. contributed equally to this work. S.F. is supported by a Marie Skłodowska-Curie Individual Fellowship H2020-MSCA-IF-2020 SingExTr (No. 101031596). This work was supported by the Singapore Ministry of Education (MOE) Tier 1 (No. RG199/17, RG93/19) and the Singapore National Research Foundation (NRF) under the Competitive Research Programs (NRF-CRP-212018-0007) and NRF QEP programme, National Natural Science Foundation of China (Nos. 61774040, 11774170, and 61904151), the National Young 1000 Talent Plan of China, the Shanghai Municipal Natural Science Foundation (No. 16ZR1402500), the Opening project of State Key Laboratory of Functional Materials for Informatics (Shanghai Institute of Microsystem and Information Technology, Chinese Academy of Sciences), Natural Science Foundation of Shaanxi under Grant No. 2020JM-108 and the Joint Research Funds of Department of Science & Technology of Shaanxi Province and Northwestern Polytechnical University (No. 2020GXLH-Z-020). J.Z. thanks the support from National Natural Science Foundation of China (NSFC) under the Grant No. 12174384. 2022-04-04T05:13:23Z 2022-04-04T05:13:23Z 2022 Journal Article Feng, S., Zou, C., Cong, C., Shang, J., Zhang, J., Chen, Y., Wu, L., Zhang, H., Huang, Z., Gao, W., Zhang, B., Huang, W. & Yu, T. (2022). Deterministic and scalable generation of exciton emitters in 2D semiconductor nanodisks. Advanced Optical Materials, 10(6), 2102702-. https://dx.doi.org/10.1002/adom.202102702 2195-1071 https://hdl.handle.net/10356/156061 10.1002/adom.202102702 2-s2.0-85123889698 6 10 2102702 en RG199/17 RG93/19 NRF-CRP-212018-0007 Advanced Optical Materials This is the peer reviewed version of the following article: Feng, S., Zou, C., Cong, C., Shang, J., Zhang, J., Chen, Y., Wu, L., Zhang, H., Huang, Z., Gao, W., Zhang, B., Huang, W. & Yu, T. (2022). Deterministic and scalable generation of exciton emitters in 2D semiconductor nanodisks. Advanced Optical Materials, 10(6), 2102702-, which has been published in final form at https://doi.org/10.1002/adom.202102702. This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for Use of Self-Archived Versions. application/pdf |
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Science::Physics::Optics and light Engineering::Materials::Nanostructured materials Defect-Bound Excitons Lateral Size Confinement |
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Science::Physics::Optics and light Engineering::Materials::Nanostructured materials Defect-Bound Excitons Lateral Size Confinement Feng, Shun Zou, Chenji Cong, Chunxiao Shang, Jingzhi Zhang, Jing Chen, Yu Wu, Lishu Zhang, Hongbo Huang, Zumeng Gao, Weibo Zhang, Baile Huang, Wei Yu, Ting Deterministic and scalable generation of exciton emitters in 2D semiconductor nanodisks |
| description |
In recent cryogenic measurements, narrow photoluminescence (PL) peaks due to diverse quantum emitters have been found at random locations of monolayer transition metal dichalcogenides (TMDs), which impedes precise optoelectronic applications. Thus, it is of great importance to truly regulate these localized exciton emissions by deterministic spatial and spectral control. Here, such desired emission is primarily demonstrated in monolayer WS2 nanodisks. The size-dependent PL studies indicate the clear evolution from the broad defect-band emission to a set of spectrally isolated narrow peaks (linewidth of ≈ sub nm) at 4.2 K, which is associated with the prevailing effect of edge defects with the shrinkage of the disk diameter, providing a narrow emission energy range for bound excitons. When the disk diameter is reduced to 300 nm, more than 80% of emitter peaks are located between 610 and 616 nm, verifying the effective control of emission wavelength of these photon emitters. Furthermore, the strategy is extended to prepare scalable WS2 nanodisk arrays based on flakes of hundreds of µm, and size-dependent narrow emissions of WSe2 nanodisks are testified. This work develops a defect-engineering strategy to generate localized exciton emitters toward the promising TMD-based optoelectronic applications. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Feng, Shun Zou, Chenji Cong, Chunxiao Shang, Jingzhi Zhang, Jing Chen, Yu Wu, Lishu Zhang, Hongbo Huang, Zumeng Gao, Weibo Zhang, Baile Huang, Wei Yu, Ting |
| format |
Article |
| author |
Feng, Shun Zou, Chenji Cong, Chunxiao Shang, Jingzhi Zhang, Jing Chen, Yu Wu, Lishu Zhang, Hongbo Huang, Zumeng Gao, Weibo Zhang, Baile Huang, Wei Yu, Ting |
| author_sort |
Feng, Shun |
| title |
Deterministic and scalable generation of exciton emitters in 2D semiconductor nanodisks |
| title_short |
Deterministic and scalable generation of exciton emitters in 2D semiconductor nanodisks |
| title_full |
Deterministic and scalable generation of exciton emitters in 2D semiconductor nanodisks |
| title_fullStr |
Deterministic and scalable generation of exciton emitters in 2D semiconductor nanodisks |
| title_full_unstemmed |
Deterministic and scalable generation of exciton emitters in 2D semiconductor nanodisks |
| title_sort |
deterministic and scalable generation of exciton emitters in 2d semiconductor nanodisks |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/156061 |
| _version_ |
1759854922211262464 |