Stable Luminescent Diradicals: The Emergence and Potential Applications

Yujie Zhu; Zihao Zhu; Saixue Wang; Qiming Peng; Alim Abdurahman

doi:10.1002/anie.202423470

Stable Luminescent Diradicals: The Emergence and Potential Applications

Yujie Zhu, Zihao Zhu, Saixue Wang, Qiming Peng, Alim Abdurahman

SCHOOL OF FLEXIBLE ELECTRONICS(FUTURE TECHNOLOGIES)|INSTITUTE OF ADVANCED MATERIALS(IAM)

Research output: Contribution to journal › Short survey › peer-review

2 Scopus citations

Abstract

Stable luminescent diradicals, characterized by the presence of two unpaired electrons, exhibit unique photophysical properties that are sensitive to external stimuli such as temperature, magnetic fields, and microwaves. This sensitivity allows the manipulation of their spin states and luminescence, setting them apart from traditional closed-shell luminescent molecules and luminescent monoradicals. As a result, luminescent diradicals are emerging as promising candidates for a variety of applications. This minireview discusses recent advances in the design and synthesis of luminescent diradicals, explores their photophysical properties and potential applications. It also examines the challenges and prospects in the development of these materials, shedding light on their potential to drive technological innovation.

Original language	English
Article number	e202423470
Journal	Angewandte Chemie - International Edition
Volume	64
Issue number	10
DOIs	https://doi.org/10.1002/anie.202423470
State	Published - 3 Mar 2025

Keywords

Luminescent diradicals
Magnetoluminescence
Spin state manipulation
Spin-optical interface
Stable radicals

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10.1002/anie.202423470

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abstract = "Stable luminescent diradicals, characterized by the presence of two unpaired electrons, exhibit unique photophysical properties that are sensitive to external stimuli such as temperature, magnetic fields, and microwaves. This sensitivity allows the manipulation of their spin states and luminescence, setting them apart from traditional closed-shell luminescent molecules and luminescent monoradicals. As a result, luminescent diradicals are emerging as promising candidates for a variety of applications. This minireview discusses recent advances in the design and synthesis of luminescent diradicals, explores their photophysical properties and potential applications. It also examines the challenges and prospects in the development of these materials, shedding light on their potential to drive technological innovation.",

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T1 - Stable Luminescent Diradicals

T2 - The Emergence and Potential Applications

AU - Zhu, Yujie

AU - Zhu, Zihao

AU - Wang, Saixue

AU - Peng, Qiming

AU - Abdurahman, Alim

PY - 2025/3/3

Y1 - 2025/3/3

N2 - Stable luminescent diradicals, characterized by the presence of two unpaired electrons, exhibit unique photophysical properties that are sensitive to external stimuli such as temperature, magnetic fields, and microwaves. This sensitivity allows the manipulation of their spin states and luminescence, setting them apart from traditional closed-shell luminescent molecules and luminescent monoradicals. As a result, luminescent diradicals are emerging as promising candidates for a variety of applications. This minireview discusses recent advances in the design and synthesis of luminescent diradicals, explores their photophysical properties and potential applications. It also examines the challenges and prospects in the development of these materials, shedding light on their potential to drive technological innovation.

AB - Stable luminescent diradicals, characterized by the presence of two unpaired electrons, exhibit unique photophysical properties that are sensitive to external stimuli such as temperature, magnetic fields, and microwaves. This sensitivity allows the manipulation of their spin states and luminescence, setting them apart from traditional closed-shell luminescent molecules and luminescent monoradicals. As a result, luminescent diradicals are emerging as promising candidates for a variety of applications. This minireview discusses recent advances in the design and synthesis of luminescent diradicals, explores their photophysical properties and potential applications. It also examines the challenges and prospects in the development of these materials, shedding light on their potential to drive technological innovation.

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KW - Magnetoluminescence

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Stable Luminescent Diradicals: The Emergence and Potential Applications

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