Polymorphism-Dependent Dynamic Ultralong Organic Phosphorescence

Mingxing Gu; Mingxing Gu; Huifang Shi; Kun Ling; Anqi Lv; Kaiwei Huang; Manjeet Singh; He Wang; Long Gu; Wei Yao; Zhongfu An; Zhongfu An; Huili Ma; Wei Huang

doi:10.34133/2020/8183450

Polymorphism-Dependent Dynamic Ultralong Organic Phosphorescence

Mingxing Gu, Mingxing Gu, Huifang Shi, Kun Ling, Anqi Lv, Kaiwei Huang, Manjeet Singh, He Wang, Long Gu, Wei Yao, Zhongfu An, Zhongfu An, Huili Ma, Wei Huang

Institute of Flexible Electronics

Research output: Contribution to journal › Article › peer-review

47 Scopus citations

Abstract

Developing ultralong organic phosphorescence (UOP) materials with smart response to external stimuli is of great interest in photonics applications, whereas the manipulation of molecular stacking on tuning such dynamic UOP is still a formidable challenge. Herein, we have reported two polymorphs with distinct photoactivated dynamic UOP behavior based on a pyridine derivative for the first time. Our experiment revealed that the dynamic UOP behavior including photoactivation and deactivation feature is highly dependent on irradiation intensity and environmental atmosphere. Additionally, given the unique dynamic UOP feature, these phosphors have been successfully applied to phosphorescence-dependent molecular logic gate and timing data storage. This result not only paves a way to design smart functional materials but also expands the scope of the applications on organic phosphorescence materials.

Original language	English
Article number	8183450
Journal	Research
Volume	2020
DOIs	https://doi.org/10.34133/2020/8183450
State	Published - 7 Feb 2020

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abstract = "Developing ultralong organic phosphorescence (UOP) materials with smart response to external stimuli is of great interest in photonics applications, whereas the manipulation of molecular stacking on tuning such dynamic UOP is still a formidable challenge. Herein, we have reported two polymorphs with distinct photoactivated dynamic UOP behavior based on a pyridine derivative for the first time. Our experiment revealed that the dynamic UOP behavior including photoactivation and deactivation feature is highly dependent on irradiation intensity and environmental atmosphere. Additionally, given the unique dynamic UOP feature, these phosphors have been successfully applied to phosphorescence-dependent molecular logic gate and timing data storage. This result not only paves a way to design smart functional materials but also expands the scope of the applications on organic phosphorescence materials.",

author = "Mingxing Gu and Mingxing Gu and Huifang Shi and Kun Ling and Anqi Lv and Kaiwei Huang and Manjeet Singh and He Wang and Long Gu and Wei Yao and Zhongfu An and Zhongfu An and Huili Ma and Wei Huang",

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doi = "10.34133/2020/8183450",

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T1 - Polymorphism-Dependent Dynamic Ultralong Organic Phosphorescence

AU - Gu, Mingxing

AU - Shi, Huifang

AU - Ling, Kun

AU - Lv, Anqi

AU - Huang, Kaiwei

AU - Singh, Manjeet

AU - Wang, He

AU - Gu, Long

AU - Yao, Wei

AU - An, Zhongfu

AU - Ma, Huili

AU - Huang, Wei

PY - 2020/2/7

Y1 - 2020/2/7

N2 - Developing ultralong organic phosphorescence (UOP) materials with smart response to external stimuli is of great interest in photonics applications, whereas the manipulation of molecular stacking on tuning such dynamic UOP is still a formidable challenge. Herein, we have reported two polymorphs with distinct photoactivated dynamic UOP behavior based on a pyridine derivative for the first time. Our experiment revealed that the dynamic UOP behavior including photoactivation and deactivation feature is highly dependent on irradiation intensity and environmental atmosphere. Additionally, given the unique dynamic UOP feature, these phosphors have been successfully applied to phosphorescence-dependent molecular logic gate and timing data storage. This result not only paves a way to design smart functional materials but also expands the scope of the applications on organic phosphorescence materials.

AB - Developing ultralong organic phosphorescence (UOP) materials with smart response to external stimuli is of great interest in photonics applications, whereas the manipulation of molecular stacking on tuning such dynamic UOP is still a formidable challenge. Herein, we have reported two polymorphs with distinct photoactivated dynamic UOP behavior based on a pyridine derivative for the first time. Our experiment revealed that the dynamic UOP behavior including photoactivation and deactivation feature is highly dependent on irradiation intensity and environmental atmosphere. Additionally, given the unique dynamic UOP feature, these phosphors have been successfully applied to phosphorescence-dependent molecular logic gate and timing data storage. This result not only paves a way to design smart functional materials but also expands the scope of the applications on organic phosphorescence materials.

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Polymorphism-Dependent Dynamic Ultralong Organic Phosphorescence

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