Journal of Physical Chemistry Letters, volume 13, issue 20, pages 4612-4620
Nanoscale Electrically Driven Light Source Based on Hybrid Semiconductor/Metal Nanoantenna
Lebedev Denis A
1, 2, 3
,
Shkoldin Vitaliy A
1, 4
,
Mozharov Alexey M
2
,
Larin Artem O
4
,
Samusev Anton K.
4
,
Golubok Alexander O.
3
,
Arkhipov Alexander V
5
,
Mukhin Ivan S.
1, 5
Publication type: Journal Article
Publication date: 2022-05-19
Quartile SCImago
Q1
Quartile WOS
Q1
Impact factor: 5.7
ISSN: 19487185
Physical and Theoretical Chemistry
General Materials Science
Abstract
A micro- or nanosized electrically controlled source of optical radiation is one of the key elements in optoelectronic systems. The phenomenon of light emission via inelastic tunneling (LEIT) of electrons through potential barriers or junctions opens up new possibilities for development of such sources. In this work, we present a simple approach for fabrication of nanoscale electrically driven light sources based on LEIT. We employ STM lithography to locally modify the surface of a Si/Au film stack via heating, which is enabled by a high-density tunnel current. Using the proposed technique, hybrid Si/Au nanoantennas with a minimum diameter of 60 nm were formed. Studying both electronic and optical properties of the obtained nanoantennas, we confirm that the resulting structures can efficiently emit photons in the visible range because of inelastic scattering of electrons. The proposed approach allows for fabrication of nanosized hybrid nanoantennas and studying their properties using STM.
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1
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Nano Letters
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Nano Letters
1 publication, 20%
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Sensors
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Sensors
1 publication, 20%
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Journal of Physical Chemistry Letters
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1 publication, 20%
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Nanophotonics
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1 publication, 20%
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Laser and Photonics Reviews
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1 publication, 20%
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1
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Citations by publishers
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1
2
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American Chemical Society (ACS)
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American Chemical Society (ACS)
2 publications, 40%
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Multidisciplinary Digital Publishing Institute (MDPI)
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Multidisciplinary Digital Publishing Institute (MDPI)
1 publication, 20%
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Walter de Gruyter
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Walter de Gruyter
1 publication, 20%
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Wiley
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Wiley
1 publication, 20%
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1
2
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- Statistics recalculated weekly.
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Lebedev D. A. et al. Nanoscale Electrically Driven Light Source Based on Hybrid Semiconductor/Metal Nanoantenna // Journal of Physical Chemistry Letters. 2022. Vol. 13. No. 20. pp. 4612-4620.
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Lebedev D. A., Shkoldin V. A., Mozharov A. M., Larin A. O., Permyakov D. V., Samusev A. K., Petukhov A. E., Golubok A. O., Arkhipov A. V., Mukhin I. S. Nanoscale Electrically Driven Light Source Based on Hybrid Semiconductor/Metal Nanoantenna // Journal of Physical Chemistry Letters. 2022. Vol. 13. No. 20. pp. 4612-4620.
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TY - JOUR
DO - 10.1021/acs.jpclett.2c00986
UR - https://doi.org/10.1021%2Facs.jpclett.2c00986
TI - Nanoscale Electrically Driven Light Source Based on Hybrid Semiconductor/Metal Nanoantenna
T2 - Journal of Physical Chemistry Letters
AU - Golubok, Alexander O.
AU - Arkhipov, Alexander V
AU - Mozharov, Alexey M
AU - Lebedev, Denis A
AU - Shkoldin, Vitaliy A
AU - Larin, Artem O
AU - Permyakov, Dmitry V
AU - Samusev, Anton K.
AU - Petukhov, Anatoly E.
AU - Mukhin, Ivan S.
PY - 2022
DA - 2022/05/19 00:00:00
PB - American Chemical Society (ACS)
SP - 4612-4620
IS - 20
VL - 13
SN - 1948-7185
ER -
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@article{2022_Lebedev,
author = {Alexander O. Golubok and Alexander V Arkhipov and Alexey M Mozharov and Denis A Lebedev and Vitaliy A Shkoldin and Artem O Larin and Dmitry V Permyakov and Anton K. Samusev and Anatoly E. Petukhov and Ivan S. Mukhin},
title = {Nanoscale Electrically Driven Light Source Based on Hybrid Semiconductor/Metal Nanoantenna},
journal = {Journal of Physical Chemistry Letters},
year = {2022},
volume = {13},
publisher = {American Chemical Society (ACS)},
month = {may},
url = {https://doi.org/10.1021%2Facs.jpclett.2c00986},
number = {20},
pages = {4612--4620},
doi = {10.1021/acs.jpclett.2c00986}
}
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MLA
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Lebedev, Denis A., et al. “Nanoscale Electrically Driven Light Source Based on Hybrid Semiconductor/Metal Nanoantenna.” Journal of Physical Chemistry Letters, vol. 13, no. 20, May. 2022, pp. 4612-4620. https://doi.org/10.1021%2Facs.jpclett.2c00986.