Realization of Single-Crystal Dye Lasers by Taming Charge Transfer in Molecular Self-Assemblies

Wanting Dong; Chunhuan Zhang; Haiyun Dong; Zhonghao Zhou; Jiannian Yao; Yong Sheng Zhao

doi:10.1021/acsnano.2c03385

Realization of Single-Crystal Dye Lasers by Taming Charge Transfer in Molecular Self-Assemblies

Wanting Dong, Chunhuan Zhang^*, Haiyun Dong, Zhonghao Zhou, Jiannian Yao, Yong Sheng Zhao^*

^*此作品的通讯作者

科研成果: 期刊稿件 › 文章 › 同行评审

10 引用（Scopus）

摘要

The large library of organic dye molecules offers almost infinite possibilities for laser design, but still faces a great challenge in achieving pure dye aggregate lasers due to intermolecular quenching. Here, we report a kinetically controlled molecular self-assembly strategy to synthesize unconventional dye microcrystals for lasing. By increasing temperature, the dye self-assembly is transformed from thermodynamic to kinetic control. Unlike the thermodynamic microcrystal products incapable of lasing due to intermolecular charge-transfer-mediated excimer formation, the kinetic dye microcrystals have large intermolecular distances and weak intermolecular interactions, supporting highly efficient intramolecular charge-transfer monomer emission and low-threshold lasing. This work demonstrates single-crystal dye lasers, promising to unleash the full potential of laser dyes in solid-state lasers.

源语言	英语
页（从-至）	12345-12351
页数	7
期刊	ACS Nano
卷	16
期	8
DOI	https://doi.org/10.1021/acsnano.2c03385
出版状态	已出版 - 23 8月 2022
已对外发布	是

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title = "Realization of Single-Crystal Dye Lasers by Taming Charge Transfer in Molecular Self-Assemblies",

abstract = "The large library of organic dye molecules offers almost infinite possibilities for laser design, but still faces a great challenge in achieving pure dye aggregate lasers due to intermolecular quenching. Here, we report a kinetically controlled molecular self-assembly strategy to synthesize unconventional dye microcrystals for lasing. By increasing temperature, the dye self-assembly is transformed from thermodynamic to kinetic control. Unlike the thermodynamic microcrystal products incapable of lasing due to intermolecular charge-transfer-mediated excimer formation, the kinetic dye microcrystals have large intermolecular distances and weak intermolecular interactions, supporting highly efficient intramolecular charge-transfer monomer emission and low-threshold lasing. This work demonstrates single-crystal dye lasers, promising to unleash the full potential of laser dyes in solid-state lasers.",

keywords = "charge transfer, intermolecular π-πinteractions, molecular self-assembly, organic dye laser, organic laser",

author = "Wanting Dong and Chunhuan Zhang and Haiyun Dong and Zhonghao Zhou and Jiannian Yao and Zhao, {Yong Sheng}",

year = "2022",

month = aug,

day = "23",

doi = "10.1021/acsnano.2c03385",

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journal = "ACS Nano",

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T1 - Realization of Single-Crystal Dye Lasers by Taming Charge Transfer in Molecular Self-Assemblies

AU - Dong, Wanting

AU - Zhang, Chunhuan

AU - Dong, Haiyun

AU - Zhou, Zhonghao

AU - Yao, Jiannian

AU - Zhao, Yong Sheng

PY - 2022/8/23

Y1 - 2022/8/23

N2 - The large library of organic dye molecules offers almost infinite possibilities for laser design, but still faces a great challenge in achieving pure dye aggregate lasers due to intermolecular quenching. Here, we report a kinetically controlled molecular self-assembly strategy to synthesize unconventional dye microcrystals for lasing. By increasing temperature, the dye self-assembly is transformed from thermodynamic to kinetic control. Unlike the thermodynamic microcrystal products incapable of lasing due to intermolecular charge-transfer-mediated excimer formation, the kinetic dye microcrystals have large intermolecular distances and weak intermolecular interactions, supporting highly efficient intramolecular charge-transfer monomer emission and low-threshold lasing. This work demonstrates single-crystal dye lasers, promising to unleash the full potential of laser dyes in solid-state lasers.

AB - The large library of organic dye molecules offers almost infinite possibilities for laser design, but still faces a great challenge in achieving pure dye aggregate lasers due to intermolecular quenching. Here, we report a kinetically controlled molecular self-assembly strategy to synthesize unconventional dye microcrystals for lasing. By increasing temperature, the dye self-assembly is transformed from thermodynamic to kinetic control. Unlike the thermodynamic microcrystal products incapable of lasing due to intermolecular charge-transfer-mediated excimer formation, the kinetic dye microcrystals have large intermolecular distances and weak intermolecular interactions, supporting highly efficient intramolecular charge-transfer monomer emission and low-threshold lasing. This work demonstrates single-crystal dye lasers, promising to unleash the full potential of laser dyes in solid-state lasers.

KW - charge transfer

KW - intermolecular π-πinteractions

KW - molecular self-assembly

KW - organic dye laser

KW - organic laser

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SN - 1936-0851

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JO - ACS Nano

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Realization of Single-Crystal Dye Lasers by Taming Charge Transfer in Molecular Self-Assemblies

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