Multidimensional structure conformation of persulfurated benzene for highly efficient phosphorescence
It is a challenge to acquire, realize, and comprehend highly emissive phosphorescent molecules. Herein, we report that, using persulfurated benzene compounds as models, phosphorescence can be strongly enhanced through the modification of molecular conformation and crystal growth conditions. By varyi...
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sg-ntu-dr.10356-1463022023-02-28T19:21:27Z Multidimensional structure conformation of persulfurated benzene for highly efficient phosphorescence Wu, Hongwei Baryshnikov, Glib V. Kuklin, Artem Minaev, Boris F. Wu, Bin Gu, Long Zhu, Liangliang Ågren, Hans Zhao, Yanli School of Physical and Mathematical Sciences Science::Chemistry Crystal Engineering Molecular Conformation It is a challenge to acquire, realize, and comprehend highly emissive phosphorescent molecules. Herein, we report that, using persulfurated benzene compounds as models, phosphorescence can be strongly enhanced through the modification of molecular conformation and crystal growth conditions. By varying the peripheral groups in these compounds, we were able to control their molecular conformation and crystal growth mode, leading to one- (1D), two- (2D), and three-dimensional (3D) crystal morphologies. Two kinds of typical molecular conformations were separately obtained in these crystals through substituent group control or the solvent effect. Importantly, a symmetrical 3,3-conformer exhibits that a planar central benzene ring prefers a 3D-type crystal growth mode, demonstrating high phosphorescence efficiency. Such outcome is attributed to the strong crystal protection effect of the 3D crystal and the bright global minimum (GM) boat-like T1 state of the symmetrical 3,3-conformer. The conformation studies further reveal small deformation of the inner benzene ring in both singlet and triplet states. The GM boat-like T1 state is indicated by theoretical calculations, which is far away from the conical intersection (CI) point between the S0 and T1 potential energy surfaces. Meanwhile, the small energy gap between S1 and T1 states and the considerable spin–orbit coupling matrix elements allow an efficient population of the T1 state. Combined with the crystal protection and conformation effect, the 3,3-conformer crystal shows high phosphorescence efficiency. The unsymmetrical 2,4-conformer conformation with the twisted central benzene ring leads to 1D or 2D crystal growth mode, which has a weak crystal protection effect. In addition, the unsymmetrical conformation has a dark GM T1 state that is very close to the T1–S0 CI point, implying an efficient nonradiative T1–S0 quenching. Thus, weak phosphorescence was observed from the unsymmetrical conformation. This study provides an insight for the development of highly emissive phosphorescent materials. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) National Research Foundation (NRF) Accepted version The research is supported by the Singapore Academic Research Fund (No. RT12/19), the Singapore Agency for Science, Technology and Research (A*STAR) AME IRG grant (No. A1883c0005), the Singapore National Research Foundation Investigatorship (No. NRFNRFI2018- 03), and partially the National Key Research and Development Program of China (No. 2017YFA0207700). 2021-02-08T07:14:53Z 2021-02-08T07:14:53Z 2021 Journal Article Wu, H., Baryshnikov, G. V., Kuklin, A., Minaev, B. F., Wu, B., Gu, L., ... Zhao, Y. (2021). Multidimensional structure conformation of persulfurated benzene for highly efficient phosphorescence. ACS Applied Materials and Interfaces, 13(1), 1314–1322. doi:10.1021/acsami.0c16338 1944-8244 https://hdl.handle.net/10356/146302 10.1021/acsami.0c16338 1 13 1314 1322 en ACS Applied Materials and Interfaces This document is the Accepted Manuscript version of a Published Work that appeared in final form in ACS Applied Materials and Interfaces, copyright © American Chemical Society after peer review and technical editing by the publisher. To access the final edited and published work see https://doi.org/10.1021/acsami.0c16338 application/pdf |
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Science::Chemistry Crystal Engineering Molecular Conformation Wu, Hongwei Baryshnikov, Glib V. Kuklin, Artem Minaev, Boris F. Wu, Bin Gu, Long Zhu, Liangliang Ågren, Hans Zhao, Yanli Multidimensional structure conformation of persulfurated benzene for highly efficient phosphorescence |
| description |
It is a challenge to acquire, realize, and comprehend highly emissive phosphorescent molecules. Herein, we report that, using persulfurated benzene compounds as models, phosphorescence can be strongly enhanced through the modification of molecular conformation and crystal growth conditions. By varying the peripheral groups in these compounds, we were able to control their molecular conformation and crystal growth mode, leading to one- (1D), two- (2D), and three-dimensional (3D) crystal morphologies. Two kinds of typical molecular conformations were separately obtained in these crystals through substituent group control or the solvent effect. Importantly, a symmetrical 3,3-conformer exhibits that a planar central benzene ring prefers a 3D-type crystal growth mode, demonstrating high phosphorescence efficiency. Such outcome is attributed to the strong crystal protection effect of the 3D crystal and the bright global minimum (GM) boat-like T1 state of the symmetrical 3,3-conformer. The conformation studies further reveal small deformation of the inner benzene ring in both singlet and triplet states. The GM boat-like T1 state is indicated by theoretical calculations, which is far away from the conical intersection (CI) point between the S0 and T1 potential energy surfaces. Meanwhile, the small energy gap between S1 and T1 states and the considerable spin–orbit coupling matrix elements allow an efficient population of the T1 state. Combined with the crystal protection and conformation effect, the 3,3-conformer crystal shows high phosphorescence efficiency. The unsymmetrical 2,4-conformer conformation with the twisted central benzene ring leads to 1D or 2D crystal growth mode, which has a weak crystal protection effect. In addition, the unsymmetrical conformation has a dark GM T1 state that is very close to the T1–S0 CI point, implying an efficient nonradiative T1–S0 quenching. Thus, weak phosphorescence was observed from the unsymmetrical conformation. This study provides an insight for the development of highly emissive phosphorescent materials. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Wu, Hongwei Baryshnikov, Glib V. Kuklin, Artem Minaev, Boris F. Wu, Bin Gu, Long Zhu, Liangliang Ågren, Hans Zhao, Yanli |
| format |
Article |
| author |
Wu, Hongwei Baryshnikov, Glib V. Kuklin, Artem Minaev, Boris F. Wu, Bin Gu, Long Zhu, Liangliang Ågren, Hans Zhao, Yanli |
| author_sort |
Wu, Hongwei |
| title |
Multidimensional structure conformation of persulfurated benzene for highly efficient phosphorescence |
| title_short |
Multidimensional structure conformation of persulfurated benzene for highly efficient phosphorescence |
| title_full |
Multidimensional structure conformation of persulfurated benzene for highly efficient phosphorescence |
| title_fullStr |
Multidimensional structure conformation of persulfurated benzene for highly efficient phosphorescence |
| title_full_unstemmed |
Multidimensional structure conformation of persulfurated benzene for highly efficient phosphorescence |
| title_sort |
multidimensional structure conformation of persulfurated benzene for highly efficient phosphorescence |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/146302 |
| _version_ |
1759854418733301760 |