Manipulation of the optical properties of colloidal 2D CdSe nanoplatelets
Driven by the unique optoelectronic features arising from the strong quantum confinement along the thickness direction, rapid development of CdSe-based nanoplatelets (NPL) has accomplished facile bandgap tunability over a broad spectrum via different preparation protocols or various postsynthesis tr...
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sg-ntu-dr.10356-1686732023-06-19T15:34:45Z Manipulation of the optical properties of colloidal 2D CdSe nanoplatelets Zhang, Zitong Sun, Handong School of Physical and Mathematical Sciences Engineering::Materials::Photonics and optoelectronics materials Bandgap Tenability CdSe Nanoplatelets Driven by the unique optoelectronic features arising from the strong quantum confinement along the thickness direction, rapid development of CdSe-based nanoplatelets (NPL) has accomplished facile bandgap tunability over a broad spectrum via different preparation protocols or various postsynthesis treatments. The anisotropic geometry of NPLs also stimulates the exploitation of selfassembled CdSe NPL superstructures to enhance light extraction efficiency in display technologies and achieves polarized lasing performance or even electrically pumped laser by adjusting the transition dipole orientation. Although several review articles about the general optical properties of CdSe NPLs have been published, none of them focus on the ability of spectral tunability and precise control of orientations in the solid-state phase of CdSe NPLs. Herein, the band structure engineering approaches in the CdSe NPL family are systematically summarized and the optical properties and device performance metrics of these deliberately engineered NPLs are compared. Then, the recent advanced studies of the motivation and assembly methods of geometrically anisotropic CdSe NPL superlattices are discussed. Finally, the current challenges and future outlook on the controlled modification of optical features and the influences of the approaches in the aspect of CdSe NPL–based devices’ performance are highlighted. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) Published version This work was supported by A*STAR under project AME-IRG-A20E5c0083 and Ministry of Education Singapore through the Academic Research Fund under Projects MOE Tier 1 RG95/19 (S). 2023-06-15T01:53:47Z 2023-06-15T01:53:47Z 2021 Journal Article Zhang, Z. & Sun, H. (2021). Manipulation of the optical properties of colloidal 2D CdSe nanoplatelets. Advanced Photonics Research, 2(8), 2100045-. https://dx.doi.org/10.1002/adpr.202100045 2699-9293 https://hdl.handle.net/10356/168673 10.1002/adpr.202100045 8 2 2100045 en AME-IRG-A20E5c0083 RG95/19 (S) Advanced Photonics Research © 2021 The Authors. Advanced Photonics Research published by Wiley-VCH GmbH. This is an open access article under the terms of the CreativeCommons Attribution License, which permits use, distribution andreproduction in any medium, provided the original work is properly cited. application/pdf |
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Engineering::Materials::Photonics and optoelectronics materials Bandgap Tenability CdSe Nanoplatelets Zhang, Zitong Sun, Handong Manipulation of the optical properties of colloidal 2D CdSe nanoplatelets |
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Driven by the unique optoelectronic features arising from the strong quantum confinement along the thickness direction, rapid development of CdSe-based nanoplatelets (NPL) has accomplished facile bandgap tunability over a broad spectrum via different preparation protocols or various postsynthesis treatments. The anisotropic geometry of NPLs also stimulates the exploitation of selfassembled CdSe NPL superstructures to enhance light extraction efficiency in display technologies and achieves polarized lasing performance or even electrically pumped laser by adjusting the transition dipole orientation. Although several review articles about the general optical properties of CdSe NPLs have been published, none of them focus on the ability of spectral tunability and precise control of orientations in the solid-state phase of CdSe NPLs. Herein, the band structure engineering approaches in the CdSe NPL family are systematically summarized and the optical properties and device performance metrics of these deliberately engineered NPLs are compared. Then, the recent advanced studies of the motivation and assembly methods of geometrically anisotropic CdSe NPL superlattices are discussed. Finally, the current challenges and future outlook on the controlled modification of optical features and the influences of the approaches in the aspect of CdSe NPL–based devices’ performance are highlighted. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Zhang, Zitong Sun, Handong |
| format |
Article |
| author |
Zhang, Zitong Sun, Handong |
| author_sort |
Zhang, Zitong |
| title |
Manipulation of the optical properties of colloidal 2D CdSe nanoplatelets |
| title_short |
Manipulation of the optical properties of colloidal 2D CdSe nanoplatelets |
| title_full |
Manipulation of the optical properties of colloidal 2D CdSe nanoplatelets |
| title_fullStr |
Manipulation of the optical properties of colloidal 2D CdSe nanoplatelets |
| title_full_unstemmed |
Manipulation of the optical properties of colloidal 2D CdSe nanoplatelets |
| title_sort |
manipulation of the optical properties of colloidal 2d cdse nanoplatelets |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/168673 |
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1772827227040251904 |