Xia, J., Xiong, C., Mo, S., Zhang, Y., Zhang, K., Li, G., Shi, J., Zhi, J., Tong, B., Wu, Q., Sun, P., Cai, Z., & Dong, Y. (2024). Near-infrared circularly polarized organic room temperature phosphorescence based on a chiral host-guest doping strategy. Journal of Materials Chemistry C, 12(26), 9578-9585. https://doi.org/10.1039/d4tc01828a
Xia, Junming ; Xiong, Chenchen ; Mo, Songmin et al. / Near-infrared circularly polarized organic room temperature phosphorescence based on a chiral host-guest doping strategy. In: Journal of Materials Chemistry C. 2024 ; Vol. 12, No. 26. pp. 9578-9585.
@article{d53037fde65b40bda97f1ebd6c6403d5,
title = "Near-infrared circularly polarized organic room temperature phosphorescence based on a chiral host-guest doping strategy",
abstract = "Achieving high-performance circularly polarized organic room temperature phosphorescence (CPRTP) holds significant academic and industrial importance. Herein, a series of near-infrared, color-tunable, and long-lived CPRTP materials have been successfully constructed by doping achiral luminescent guests into chiral crystallizable hosts. Naphthalimide derivatives are chosen as the guest molecules owing to the large conjugation and good structure tunability. (−)-Di-p-toluoyl-l- and (+)-di-p-toluoyl-d-tartaric acid are selected as the host molecules on account of the outstanding chirality and crystallinity. Through doping naphthalimide into tartaric acid derivatives, the resultant materials show the desirable CPRTP with a luminescence dissymmetry factor equal to 1.14 × 10−2. The host stabilizes and protects triplet excitons generated from the guest and induces the chirality of phosphorescence. Impressively, the doping material is emissive in the near-infrared region of 720 nm, which has hardly been achieved before. By modifying the chemical structure of the guest, the phosphorescent color of doping materials can be well-modulated from green to yellow and red. Moreover, the doping material displays a lifetime of up to 2.14 s. It is highly anticipated that this work will provide a new design strategy for high-performance CPRTP materials.",
author = "Junming Xia and Chenchen Xiong and Songmin Mo and Yongfeng Zhang and Kai Zhang and Gengchen Li and Jianbing Shi and Junge Zhi and Bin Tong and Qinghe Wu and Peng Sun and Zhengxu Cai and Yuping Dong",
note = "Publisher Copyright: {\textcopyright} 2024 The Royal Society of Chemistry.",
year = "2024",
month = jun,
day = "3",
doi = "10.1039/d4tc01828a",
language = "English",
volume = "12",
pages = "9578--9585",
journal = "Journal of Materials Chemistry C",
issn = "2050-7526",
publisher = "Royal Society of Chemistry",
number = "26",
}
Xia, J, Xiong, C, Mo, S, Zhang, Y, Zhang, K, Li, G, Shi, J, Zhi, J, Tong, B, Wu, Q, Sun, P, Cai, Z & Dong, Y 2024, 'Near-infrared circularly polarized organic room temperature phosphorescence based on a chiral host-guest doping strategy', Journal of Materials Chemistry C, vol. 12, no. 26, pp. 9578-9585. https://doi.org/10.1039/d4tc01828a
Near-infrared circularly polarized organic room temperature phosphorescence based on a chiral host-guest doping strategy. / Xia, Junming; Xiong, Chenchen; Mo, Songmin et al.
In:
Journal of Materials Chemistry C, Vol. 12, No. 26, 03.06.2024, p. 9578-9585.
Research output: Contribution to journal › Article › peer-review
TY - JOUR
T1 - Near-infrared circularly polarized organic room temperature phosphorescence based on a chiral host-guest doping strategy
AU - Xia, Junming
AU - Xiong, Chenchen
AU - Mo, Songmin
AU - Zhang, Yongfeng
AU - Zhang, Kai
AU - Li, Gengchen
AU - Shi, Jianbing
AU - Zhi, Junge
AU - Tong, Bin
AU - Wu, Qinghe
AU - Sun, Peng
AU - Cai, Zhengxu
AU - Dong, Yuping
N1 - Publisher Copyright:
© 2024 The Royal Society of Chemistry.
PY - 2024/6/3
Y1 - 2024/6/3
N2 - Achieving high-performance circularly polarized organic room temperature phosphorescence (CPRTP) holds significant academic and industrial importance. Herein, a series of near-infrared, color-tunable, and long-lived CPRTP materials have been successfully constructed by doping achiral luminescent guests into chiral crystallizable hosts. Naphthalimide derivatives are chosen as the guest molecules owing to the large conjugation and good structure tunability. (−)-Di-p-toluoyl-l- and (+)-di-p-toluoyl-d-tartaric acid are selected as the host molecules on account of the outstanding chirality and crystallinity. Through doping naphthalimide into tartaric acid derivatives, the resultant materials show the desirable CPRTP with a luminescence dissymmetry factor equal to 1.14 × 10−2. The host stabilizes and protects triplet excitons generated from the guest and induces the chirality of phosphorescence. Impressively, the doping material is emissive in the near-infrared region of 720 nm, which has hardly been achieved before. By modifying the chemical structure of the guest, the phosphorescent color of doping materials can be well-modulated from green to yellow and red. Moreover, the doping material displays a lifetime of up to 2.14 s. It is highly anticipated that this work will provide a new design strategy for high-performance CPRTP materials.
AB - Achieving high-performance circularly polarized organic room temperature phosphorescence (CPRTP) holds significant academic and industrial importance. Herein, a series of near-infrared, color-tunable, and long-lived CPRTP materials have been successfully constructed by doping achiral luminescent guests into chiral crystallizable hosts. Naphthalimide derivatives are chosen as the guest molecules owing to the large conjugation and good structure tunability. (−)-Di-p-toluoyl-l- and (+)-di-p-toluoyl-d-tartaric acid are selected as the host molecules on account of the outstanding chirality and crystallinity. Through doping naphthalimide into tartaric acid derivatives, the resultant materials show the desirable CPRTP with a luminescence dissymmetry factor equal to 1.14 × 10−2. The host stabilizes and protects triplet excitons generated from the guest and induces the chirality of phosphorescence. Impressively, the doping material is emissive in the near-infrared region of 720 nm, which has hardly been achieved before. By modifying the chemical structure of the guest, the phosphorescent color of doping materials can be well-modulated from green to yellow and red. Moreover, the doping material displays a lifetime of up to 2.14 s. It is highly anticipated that this work will provide a new design strategy for high-performance CPRTP materials.
UR - http://www.scopus.com/inward/record.url?scp=85196215489&partnerID=8YFLogxK
U2 - 10.1039/d4tc01828a
DO - 10.1039/d4tc01828a
M3 - Article
AN - SCOPUS:85196215489
SN - 2050-7526
VL - 12
SP - 9578
EP - 9585
JO - Journal of Materials Chemistry C
JF - Journal of Materials Chemistry C
IS - 26
ER -
Xia J, Xiong C, Mo S, Zhang Y, Zhang K, Li G et al. Near-infrared circularly polarized organic room temperature phosphorescence based on a chiral host-guest doping strategy. Journal of Materials Chemistry C. 2024 Jun 3;12(26):9578-9585. doi: 10.1039/d4tc01828a
