Single‐Benzene Dual‐Emitters Harness Excited‐State Antiaromaticity for White Light Generation and Fluorescence Imaging

Kim, Younghun; Kim, Heechan; Son, Jung Bae; Filatov, Michael; Choi, Cheol Ho; Lee, Nam Ki; Lee, Dongwhan

doi:10.1002/anie.202302107

Cited by 31 publications

(30 citation statements)

References 71 publications

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“…This is the first example of a molecule leveraging ESAA to establish an excited-state equilibrium between two tautomers on a single-benzene platform. 2 The validity of the NICS analysis (CASSCF-GIAO calculations) is independently supported by the changes in the computed isotropic shielding To demonstrate the general applicability of our ESAA relief model, we conducted computational studies on known SBFs 7 and 9 (Figure 1). 28,30 As shown in Figure 11, both SBFs become antiaromatic upon vertical excitation.…”

Section: ■ Relief Of the Excited-state Antiaromaticity Enables The Sm...mentioning

confidence: 89%

“…Over the past decade, various research groups have explored small fluorophores built on a single benzene ring. ,,− Collectively named as single-benzene fluorophores (SBFs, Figure ), these molecules have intriguing photophysical properties. Equipped with aliphatic amine or alkyloxy groups as electron-donor groups (EDGs), and alkenyl, sulfonyl, or ester groups as electron-acceptor groups (EAGs) around the benzene core, they are capable of absorbing and emitting light in the visible region.…”

Section: Single-benzene Fluorophorementioning

confidence: 99%

“…We recently introduced diacetylphenylenediamines (DAPAs) as the newest additions to the growing list of SBFs (Figure ). , During the investigation, we discovered that the prevailing charge transfer paradigm does not adequately explain their photophysical properties, as these molecules exhibit little solvatochromic behavior. Moreover, it seemed counterintuitive to suggest distinct charge separation occurring across the small benzene core.…”

Section: Single-benzene Fluorophorementioning

confidence: 99%

“…Inset: Digital images of (a, b) DAPA isomers, and (c) N -functionalized derivatives of p -DAPA ( 23 – 28 , left to right; see Scheme for chemical structures) in CHCl 3 under irradiation of 365 nm UV light. Reproduced with permission from refs , . Copyright (2021) Nature Publishing Group and (2023) Wiley-VCH.…”

Section: What Happens In the Excited Statesmentioning

confidence: 99%

“…(c) Fluorescence image of 26 in CHCl 3 under irradiation with 365 nm UV light. Data taken from ref .…”

Section: Synthetic Control Of Photophysics: Additivity Linearity and ...mentioning

confidence: 99%

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Small is Beautiful: Electronic Origin and Synthetic Evolution of Single-Benzene Fluorophores

Kim,

Lee

2023

Acc. Chem. Res.

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Section: ■ Relief Of the Excited-state Antiaromaticity Enables The Sm...mentioning

confidence: 89%

Section: Single-benzene Fluorophorementioning

confidence: 99%

Section: Single-benzene Fluorophorementioning

confidence: 99%

Section: What Happens In the Excited Statesmentioning

confidence: 99%

“…(c) Fluorescence image of 26 in CHCl 3 under irradiation with 365 nm UV light. Data taken from ref .…”

Section: Synthetic Control Of Photophysics: Additivity Linearity and ...mentioning

confidence: 99%

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Small is Beautiful: Electronic Origin and Synthetic Evolution of Single-Benzene Fluorophores

Kim,

Lee

2023

Acc. Chem. Res.

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Single‐Benzene Fluorophores: Controlling Electron Density on Amino of 2,5‐Diaminoterephthalates to Manipulate Optical/Electronic Properties for Efficient and Diversified Functions

Bao,

Yang,

et al. 2024

Adv Funct Materials

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Single‐benzene fluorophores have attracted increasing interest owing to their simple molecular structure and unique photophysical properties. Developing novel single‐benzene fluorophores with facile synthesis, bright and tunable dual‐state emissions, and diversified functions is highly desirable. Herein, a strategy of controlling electron density on amino of 2,5‐diaminoterephthalates is proposed to modulate their dual‐state emission, acidichromism, Cu2+ detection, and lipid droplets (LDs) staining. A series of efficient dual‐state single‐benzene fluorophores based on 2,5‐diaminoterephthalate skeleton with tunable emissions in blue to red region and large Stokes shifts is facilely developed. The obtained fluorophores with various substituents on amino groups exhibit different acidichromism property. Two of fluorophores (ABB and ABM) with high electron density on amino groups exhibit high sensitivity and selectivity toward Cu2+ detection with a ratiometric and “turn‐off” fluorescence mechanism for ABM and ABB, respectively. The limit of detection for Cu2+ is determined to be 1.40 × 10−7 and 4.35 × 10−9 mol L−1 for ABB and ABM, respectively. Moreover, three of fluorophores (ABT, ABB, and ABM) with green to red emission display superior LDs‐targeting capability with high specificity, and brightness. This molecular design philosophy provides a new way of designing highly bright dual‐state fluorophores for practical applications.

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Stimuli‐Responsive Dual‐Emission Property of Single‐Luminophore‐Based Materials

Sun,

Shen,

et al. 2024

Adv Funct Materials

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Single luminophore enabling stimuli‐responsive dual‐emission characteristic has received considerable interest in recent years due to its special advantages in advanced optical events. A large number of reports around the globe have involved the dynamic or adjustable dual‐emission phenomenon (e.g., the dual emission intensity or ratio) in single‐emitter based systems. However, a systematic overview summarizing the underlying mechanisms, stimuli‐responsive behaviors, and applications of this topic is, so far, missing. To further promote the development and extend the important role of such a kind of materials in diverse communities, in this review, the latest advancements in the field of single‐luminophore based materials that exhibit stimuli‐responsive dual‐emission characteristics are summarized. The discussion is centered on the underlying the photophysical mechanisms, the innovative design approaches, strategies for modulating the dual emission properties, and the advanced applications of these single‐luminophore based systems. This review is anticipated to provide new insights into the distinctive field of the organic luminescence community from a materials perspective.

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Single‐Benzene Dual‐Emitters Harness Excited‐State Antiaromaticity for White Light Generation and Fluorescence Imaging

Cited by 31 publications

References 71 publications

Small is Beautiful: Electronic Origin and Synthetic Evolution of Single-Benzene Fluorophores

Small is Beautiful: Electronic Origin and Synthetic Evolution of Single-Benzene Fluorophores

Single‐Benzene Fluorophores: Controlling Electron Density on Amino of 2,5‐Diaminoterephthalates to Manipulate Optical/Electronic Properties for Efficient and Diversified Functions

Stimuli‐Responsive Dual‐Emission Property of Single‐Luminophore‐Based Materials

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