Achiral Dichroic Dyes‐mediated Circularly Polarized Emission Regulated by Orientational Order Parameter through Cholesteric Liquid Crystals

It is noteworthy that cholesteric liquid crystal (CLC) platforms have been witnessed in high‐performance circularly polarized luminescence (CPL) behaviors through the highly organized chiral co‐assembled arrangement of achiral dyes. However, most CPL‐active design strategies are closely relative to...

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Published inAngewandte Chemie International Edition Vol. 62; no. 46; pp. e202312159 - n/a
Main Authors Li, Yang, Chen, Yihan, Li, Hang, Liu, Chao, Li, Lulu, Quan, Yiwu, Cheng, Yixiang
Format Journal Article
LanguageEnglish
Published WEINHEIM Wiley 13.11.2023
Wiley Subscription Services, Inc
EditionInternational ed. in English
Subjects
Achiral Dichroic Dye
Chemistry
Chemistry, Multidisciplinary
Chiral Induction
Cholesteric Liquid Crystal
Cholesteric liquid crystals
Circular polarization
Circularly Polarized Emission
Crystals
Dichroism
Dyes
Electric fields
Emission
Environmental regulations
Order parameters
Phenothiazine
Physical Sciences
Science & Technology
Cholesteric Liquid Crystal
Circularly Polarized Emission
POLYMERS
Chiral Induction
ANTHRAQUINONE DYES
BEHAVIOR
Achiral Dichroic Dye
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Abstract It is noteworthy that cholesteric liquid crystal (CLC) platforms have been witnessed in high‐performance circularly polarized luminescence (CPL) behaviors through the highly organized chiral co‐assembled arrangement of achiral dyes. However, most CPL‐active design strategies are closely relative to the helix co‐assembly structure of CLC rather than achiral dyes. Herein, we developed an intriguing regulation strategy for CPL‐active CLC materials. They were regulated using the orientational order parameter (SF) of achiral dichroic dyes as an incisive probe for the order arrangement degree of achiral dyes in CLC media. The I‐shaped phenothiazine derivative PHECN dye (SF=0.30) emitted a strong CPL signal (|glum|=0.47). In contrast, the T‐shaped derivative (PHEBen) dye (SF=0.09) showed a weak circular polarization level (|glum|=0.07) at similar CLC textures. Most interestingly, this kind of dichroic PHECN dye with a higher SF could greatly improve the contrast ratio of CPL (Δglum=0.47) and emission intensity (ΔFL=46.0 %) at direct‐current electric field compared with the T‐shaped PHEBen (Δglum=0.07 and ΔFL=1.0 %) in CLC. This work demonstrates that an induced CPL emission can be mediated using achiral dichroic dye, which will open a new avenue for developing excellent CPL‐active display materials. A strategy was developed for regulating circularly polarized luminescence performance by increasing the order parameter value of achiral dichroic dye in cholesteric liquid crystal media without changing the helical superstructure. Additionally, the circularly polarized luminescence and fluorescence intensity response (contrast ratio) was also improved as the order parameter value increased under the DC electric field. Efficient encryption could be achieved by modulating the structure of achiral dichroic dyes in cholesteric liquid crystals.
AbstractList It is noteworthy that cholesteric liquid crystal (CLC) platforms have been witnessed in high-performance circularly polarized luminescence (CPL) behaviors through the highly organized chiral co-assembled arrangement of achiral dyes. However, most CPL-active design strategies are closely relative to the helix co-assembly structure of CLC rather than achiral dyes. Herein, we developed an intriguing regulation strategy for CPL-active CLC materials. They were regulated using the orientational order parameter (SF) of achiral dichroic dyes as an incisive probe for the order arrangement degree of achiral dyes in CLC media. The I-shaped phenothiazine derivative PHECN dye (SF=0.30) emitted a strong CPL signal (|glum|=0.47). In contrast, the T-shaped derivative (PHEBen) dye (SF=0.09) showed a weak circular polarization level (|glum|=0.07) at similar CLC textures. Most interestingly, this kind of dichroic PHECN dye with a higher SF could greatly improve the contrast ratio of CPL (Delta glum=0.47) and emission intensity (Delta FL=46.0 %) at direct-current electric field compared with the T-shaped PHEBen (Delta glum=0.07 and Delta FL=1.0 %) in CLC. This work demonstrates that an induced CPL emission can be mediated using achiral dichroic dye, which will open a new avenue for developing excellent CPL-active display materials. A strategy was developed for regulating circularly polarized luminescence performance by increasing the order parameter value of achiral dichroic dye in cholesteric liquid crystal media without changing the helical superstructure. Additionally, the circularly polarized luminescence and fluorescence intensity response (contrast ratio) was also improved as the order parameter value increased under the DC electric field. Efficient encryption could be achieved by modulating the structure of achiral dichroic dyes in cholesteric liquid crystals.+image
It is noteworthy that cholesteric liquid crystal (CLC) platforms have been witnessed in high-performance circularly polarized luminescence (CPL) behaviors through the highly organized chiral co-assembled arrangement of achiral dyes. However, most CPL-active design strategies are closely relative to the helix co-assembly structure of CLC rather than achiral dyes. Herein, we developed an intriguing regulation strategy for CPL-active CLC materials. They were regulated using the orientational order parameter (SF ) of achiral dichroic dyes as an incisive probe for the order arrangement degree of achiral dyes in CLC media. The I-shaped phenothiazine derivative PHECN dye (SF =0.30) emitted a strong CPL signal (|glum |=0.47). In contrast, the T-shaped derivative (PHEBen) dye (SF =0.09) showed a weak circular polarization level (|glum |=0.07) at similar CLC textures. Most interestingly, this kind of dichroic PHECN dye with a higher SF could greatly improve the contrast ratio of CPL (Δglum =0.47) and emission intensity (ΔFL=46.0 %) at direct-current electric field compared with the T-shaped PHEBen (Δglum =0.07 and ΔFL=1.0 %) in CLC. This work demonstrates that an induced CPL emission can be mediated using achiral dichroic dye, which will open a new avenue for developing excellent CPL-active display materials.
Abstract It is noteworthy that cholesteric liquid crystal (CLC) platforms have been witnessed in high‐performance circularly polarized luminescence (CPL) behaviors through the highly organized chiral co‐assembled arrangement of achiral dyes. However, most CPL‐active design strategies are closely relative to the helix co‐assembly structure of CLC rather than achiral dyes. Herein, we developed an intriguing regulation strategy for CPL‐active CLC materials. They were regulated using the orientational order parameter ( S F ) of achiral dichroic dyes as an incisive probe for the order arrangement degree of achiral dyes in CLC media. The I ‐shaped phenothiazine derivative PHECN dye ( S F =0.30) emitted a strong CPL signal (| g lum |=0.47). In contrast, the T ‐shaped derivative (PHEBen) dye ( S F =0.09) showed a weak circular polarization level (| g lum |=0.07) at similar CLC textures. Most interestingly, this kind of dichroic PHECN dye with a higher S F could greatly improve the contrast ratio of CPL (Δ g lum =0.47) and emission intensity (ΔFL=46.0 %) at direct‐current electric field compared with the T ‐shaped PHEBen (Δ g lum =0.07 and ΔFL=1.0 %) in CLC. This work demonstrates that an induced CPL emission can be mediated using achiral dichroic dye, which will open a new avenue for developing excellent CPL‐active display materials.
It is noteworthy that cholesteric liquid crystal (CLC) platforms have been witnessed in high‐performance circularly polarized luminescence (CPL) behaviors through the highly organized chiral co‐assembled arrangement of achiral dyes. However, most CPL‐active design strategies are closely relative to the helix co‐assembly structure of CLC rather than achiral dyes. Herein, we developed an intriguing regulation strategy for CPL‐active CLC materials. They were regulated using the orientational order parameter (SF) of achiral dichroic dyes as an incisive probe for the order arrangement degree of achiral dyes in CLC media. The I‐shaped phenothiazine derivative PHECN dye (SF=0.30) emitted a strong CPL signal (|glum|=0.47). In contrast, the T‐shaped derivative (PHEBen) dye (SF=0.09) showed a weak circular polarization level (|glum|=0.07) at similar CLC textures. Most interestingly, this kind of dichroic PHECN dye with a higher SF could greatly improve the contrast ratio of CPL (Δglum=0.47) and emission intensity (ΔFL=46.0 %) at direct‐current electric field compared with the T‐shaped PHEBen (Δglum=0.07 and ΔFL=1.0 %) in CLC. This work demonstrates that an induced CPL emission can be mediated using achiral dichroic dye, which will open a new avenue for developing excellent CPL‐active display materials. A strategy was developed for regulating circularly polarized luminescence performance by increasing the order parameter value of achiral dichroic dye in cholesteric liquid crystal media without changing the helical superstructure. Additionally, the circularly polarized luminescence and fluorescence intensity response (contrast ratio) was also improved as the order parameter value increased under the DC electric field. Efficient encryption could be achieved by modulating the structure of achiral dichroic dyes in cholesteric liquid crystals.
Author Li, Hang
Liu, Chao
Chen, Yihan
Quan, Yiwu
Cheng, Yixiang
Li, Lulu
Li, Yang
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  surname: Cheng
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  email: yxcheng@nju.edu.cn
  organization: Nanjing University
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CitedBy_id crossref_primary_10_1002_adom_202303019
crossref_primary_10_1002_adma_202312331
crossref_primary_10_1007_s11426_023_1846_0
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Issue 46
Keywords Cholesteric Liquid Crystal
Circularly Polarized Emission
POLYMERS
Chiral Induction
ANTHRAQUINONE DYES
BEHAVIOR
Achiral Dichroic Dye
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SSID ssj0028806
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Snippet It is noteworthy that cholesteric liquid crystal (CLC) platforms have been witnessed in high‐performance circularly polarized luminescence (CPL) behaviors...
It is noteworthy that cholesteric liquid crystal (CLC) platforms have been witnessed in high-performance circularly polarized luminescence (CPL) behaviors...
Abstract It is noteworthy that cholesteric liquid crystal (CLC) platforms have been witnessed in high‐performance circularly polarized luminescence (CPL)...
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StartPage e202312159
SubjectTerms Achiral Dichroic Dye
Chemistry
Chemistry, Multidisciplinary
Chiral Induction
Cholesteric Liquid Crystal
Cholesteric liquid crystals
Circular polarization
Circularly Polarized Emission
Crystals
Dichroism
Dyes
Electric fields
Emission
Environmental regulations
Order parameters
Phenothiazine
Physical Sciences
Science & Technology
Title Achiral Dichroic Dyes‐mediated Circularly Polarized Emission Regulated by Orientational Order Parameter through Cholesteric Liquid Crystals
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fanie.202312159
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