Correlated fluorescence blinking in two-dimensional semiconductor heterostructures
‘Blinking’, or ‘fluorescence intermittency’, refers to a random switching between ‘ON’ (bright) and ‘OFF’ (dark) states of an emitter; it has been studied widely in zero-dimensional quantum dots1 and molecules2, 3, and scarcely in one-dimensional systems4, 5. A generally accepted mechanism for blink...
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sg-ntu-dr.10356-863022020-03-07T12:31:29Z Correlated fluorescence blinking in two-dimensional semiconductor heterostructures Xu, Weigao Liu, Weiwei Schmidt, Jan F. Zhao, Weijie Lu, Xin Raab, Timo Diederichs, Carole Gao, Weibo Seletskiy, Denis V. Xiong, Qihua School of Physical and Mathematical Sciences School of Electrical and Electronic Engineering Nanoelectronics Centre of Excellence (NOVITAS) Quantum effects Single photons ‘Blinking’, or ‘fluorescence intermittency’, refers to a random switching between ‘ON’ (bright) and ‘OFF’ (dark) states of an emitter; it has been studied widely in zero-dimensional quantum dots1 and molecules2, 3, and scarcely in one-dimensional systems4, 5. A generally accepted mechanism for blinking in quantum dots involves random switching between neutral and charged states6, 7 (or is accompanied by fluctuations in charge-carrier traps8), which substantially alters the dynamics of radiative and non-radiative decay. Here, we uncover a new type of blinking effect in vertically stacked, two-dimensional semiconductor heterostructures9, which consist of two distinct monolayers of transition metal dichalcogenides (TMDs) that are weakly coupled by van der Waals forces. Unlike zero-dimensional or one-dimensional systems, two-dimensional TMD heterostructures show a correlated blinking effect, comprising randomly switching bright, neutral and dark states. Fluorescence cross-correlation spectroscopy analyses show that a bright state occurring in one monolayer will simultaneously lead to a dark state in the other monolayer, owing to an intermittent interlayer carrier-transfer process. Our findings suggest that bilayer van der Waals heterostructures provide unique platforms for the study of charge-transfer dynamics and non-equilibrium-state physics, and could see application as correlated light emitters in quantum technology. NRF (Natl Research Foundation, S’pore) MOE (Min. of Education, S’pore) 2017-11-01T08:39:05Z 2019-12-06T16:20:00Z 2017-11-01T08:39:05Z 2019-12-06T16:20:00Z 2017 Journal Article Xu, W., Liu, W., Schmidt, J. F., Zhao, W., Lu, X., Raab, T., et al. (2017). Correlated fluorescence blinking in two-dimensional semiconductor heterostructures. Nature, 541(7635), 62-67. 0028-0836 https://hdl.handle.net/10356/86302 http://hdl.handle.net/10220/43979 10.1038/nature20601 en Nature © 2017 Macmillan Publishers Limited, part of Springer Nature. |
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Quantum effects Single photons Xu, Weigao Liu, Weiwei Schmidt, Jan F. Zhao, Weijie Lu, Xin Raab, Timo Diederichs, Carole Gao, Weibo Seletskiy, Denis V. Xiong, Qihua Correlated fluorescence blinking in two-dimensional semiconductor heterostructures |
| description |
‘Blinking’, or ‘fluorescence intermittency’, refers to a random switching between ‘ON’ (bright) and ‘OFF’ (dark) states of an emitter; it has been studied widely in zero-dimensional quantum dots1 and molecules2, 3, and scarcely in one-dimensional systems4, 5. A generally accepted mechanism for blinking in quantum dots involves random switching between neutral and charged states6, 7 (or is accompanied by fluctuations in charge-carrier traps8), which substantially alters the dynamics of radiative and non-radiative decay. Here, we uncover a new type of blinking effect in vertically stacked, two-dimensional semiconductor heterostructures9, which consist of two distinct monolayers of transition metal dichalcogenides (TMDs) that are weakly coupled by van der Waals forces. Unlike zero-dimensional or one-dimensional systems, two-dimensional TMD heterostructures show a correlated blinking effect, comprising randomly switching bright, neutral and dark states. Fluorescence cross-correlation spectroscopy analyses show that a bright state occurring in one monolayer will simultaneously lead to a dark state in the other monolayer, owing to an intermittent interlayer carrier-transfer process. Our findings suggest that bilayer van der Waals heterostructures provide unique platforms for the study of charge-transfer dynamics and non-equilibrium-state physics, and could see application as correlated light emitters in quantum technology. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Xu, Weigao Liu, Weiwei Schmidt, Jan F. Zhao, Weijie Lu, Xin Raab, Timo Diederichs, Carole Gao, Weibo Seletskiy, Denis V. Xiong, Qihua |
| format |
Article |
| author |
Xu, Weigao Liu, Weiwei Schmidt, Jan F. Zhao, Weijie Lu, Xin Raab, Timo Diederichs, Carole Gao, Weibo Seletskiy, Denis V. Xiong, Qihua |
| author_sort |
Xu, Weigao |
| title |
Correlated fluorescence blinking in two-dimensional semiconductor heterostructures |
| title_short |
Correlated fluorescence blinking in two-dimensional semiconductor heterostructures |
| title_full |
Correlated fluorescence blinking in two-dimensional semiconductor heterostructures |
| title_fullStr |
Correlated fluorescence blinking in two-dimensional semiconductor heterostructures |
| title_full_unstemmed |
Correlated fluorescence blinking in two-dimensional semiconductor heterostructures |
| title_sort |
correlated fluorescence blinking in two-dimensional semiconductor heterostructures |
| publishDate |
2017 |
| url |
https://hdl.handle.net/10356/86302 http://hdl.handle.net/10220/43979 |
| _version_ |
1681044412129345536 |