Circularly Polarized Light Responsive Materials: Design Strategies and Applications

Liu, Yiping; Xing, Peng

doi:10.1002/adma.202300968

Cited by 29 publications

(12 citation statements)

References 158 publications

(271 reference statements)

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“…This further promotes these detectors show promising g SC / g ph with desired photodetection performance (Supporting Information Table 1). − ,,− As there have been several excellent reviews detailing the CPL detection recently, , in this section, we emphasize the relations between supramolecular chirality of active materials and the discrimination ability of CPL detectors.…”

Section: Chiral Assemblies Interact With Substances and Lightmentioning

confidence: 99%

Chiral Conjugated Molecular Assemblies Interact with Substances and Light

Yang,

Liu,

Wei

2024

Acc. Mater. Res.

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Metrics & MoreArticle Recommendations * sı Supporting Information CONSPECTUS: Chirality has been relevant to numerous core scientific topics over the past century. Recently, the value of chirality in artificial functional materials has been recognized and investigated intensively.Functional materials with chirality demonstrate some characteristic properties lacking in their achiral counterparts. Specifically, in chiral materials, optical rotatory dispersion, circular dichroism (CD), circularly polarized luminescence, nonlinear optical effect, and chiral-induced spin selectivity have been observed. These unique properties have recently stimulated increasing research interest in circularly polarized light (CPL) detection, circularly polarized photoluminescence and electroluminescence, chiral spintronic devices, etc. Generally speaking, the interdisciplinary chirality and optoelectronics will not only promise new opportunities for fundamental scientific research but also show broad application prospects in 3D display, drug screening, quantum computing and communication, information encryption transmission and processing, etc. In this context, chiral organic optoelectronic materials provide an appealing platform for investigation. In addition to the outstanding optical and electronic properties, chirality can be easily introduced into organic optoelectronic materials via either valence or nonvalence chemistry and can be transferred from the molecular level to the supramolecular, nano/micro, and even macro levels by molecular self-assembly and supramolecular chemistry. Moreover, chiral organic molecules are compatible with most cutting-edge processing techniques, such as vacuum evaporation, spin-coating, blade coating, roll-to-roll, etc., for various types of devices. These optoelectronic devices, including organic solar cells (OSCs), organic field-effect transistors (OFETs), and organic light-emitting diodes (OLEDs), can be manufactured on either rigid or flexible substrate, covering device size from molecular scale (single molecule device) to nano/micro and large area in square meter scale. It is thus worthwhile to review the role of chirality in organic optoelectronic materials and devices to promote further development of chiral organic optoelectronics.In this Account, we intend to showcase the diverse functions empowered by the intriguing properties of chiral organic conjugated molecular assemblies. We will first discuss how chirality affects molecular packing in chiral organic assemblies, from which we will show chirality not only helps elucidate the intermolecular interactions but also impacts hierarchical structures in matters. We then expand the discussion to the interactions between chiral assemblies and guest substances, complicated helical motion, and molecular chirality recognition achieved at nano, micro, or even macro level. We highlight our recent advances in the interactions between chiral assemblies and chiral light. This generates the field of direct CPL detection, and the basic principles in this f...

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Section: Chiral Assemblies Interact With Substances and Lightmentioning

confidence: 99%

Chiral Conjugated Molecular Assemblies Interact with Substances and Light

Yang,

Liu,

Wei

2024

Acc. Mater. Res.

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“…CPL materials find varied applications in different domains namely chiral opto-electronics, biological fields like chemo-sensors, light emitting transistors, CPL switches, 3D-displays, etc . 99–109 CPL has also been applied to amplify the chirality in molecular/supramolecular systems. 110–115 One of the criteria used to describe CPL-active systems is the luminescence dissymmetry factor ( g lum ) which may lie between +2 and −2, positive indicating left-handed circularly polarised light and negative indicating right-handed circularly polarised light. g lum = 2( I L − I R )/( I L + I R )…”

Section: Supramolecular Self-/co-assembly and Cplmentioning

confidence: 99%

A supramolecular assembly-based strategy towards the generation and amplification of photon up-conversion and circularly polarized luminescence

Sengupta,

Roy,

Likhar

et al. 2023

Nanoscale

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“…Circularly polarized persistent luminescence (CPPL) refers to the selective polarization emission nature in luminophores. The right- or left-handedness of circularly polarized light is observed for specifically extended emission after the shutdown of external excitation light in the chiral phosphor isomers (Figure a). − This long-lived emission extension is associated with the spin-forbidden transition of intersystem crossing (ISC) and limited energy delivery, leading to insufficient phosphorescence in pure organic phosphors because of small spin–orbit coupling parameters and unstable triplet excited states at ambient conditions. − Nevertheless, organic room-temperature CPPL (RT-CPPL) has still attracted growing dedication in recent years due to its lower fabrication price, versatile excited state, and chiral accessibility, which bring out enthusiastic application developments in optical information anticounterfeiting, sensing, bioimaging, 3D displaying, and spintronics. − In terms of this topic, one of the most important missions is how to improve the diversity of optical information, such as color, lifetime, and even the photon polarization state. That above-described diversity can boost encrypted data complexity and storage capacity. − …”

Section: Introductionmentioning

confidence: 99%

Double-Model Decay Strategy Integrating Persistent Photogenic Radicaloids with Dynamic Circularly Polarized Doublet Radiance and Triplet Afterglow

Yang,

Yan,

Zhang

et al. 2024

J. Am. Chem. Soc.

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Organic phosphors integrating circularly polarized persistent luminescence (CPPL) across the visible range are widespread for applications in optical information encryption, bioimaging, and 3D display, but the pursuit of color-tunable CPPL in single-component organics remains a formidable task. Herein, via in situ photoimplanting radical ion pairing into axial chiral crystals, we present and elucidate an unprecedented doublemodule decay strategy to achieve a colorful CPPL through a combination of stable triplet emission from neutral diphosphine and doublet radiance from photogenic radicals in an exclusive crystalline framework. Owing to the photoactivation-dependent doublet radiance component and an inherent triplet phosphorescence in the asymmetric environment, the CPL vision can be regulated by altering the photoactivation and observation time window, allowing colorful glow tuning from blue and orange to delayed green emission. Mechanism studies clearly reveal that this asymmetric electron migration environment and hybrid n−π* and π−π* instincts are responsible for the afterglow and radical radiance at ambient conditions. Moreover, we demonstrate the applications of colorful CPPL for displays and encryption via manipulation of both excitation and observation times.

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Circularly Polarized Light Responsive Materials: Design Strategies and Applications

Cited by 29 publications

References 158 publications

Chiral Conjugated Molecular Assemblies Interact with Substances and Light

Chiral Conjugated Molecular Assemblies Interact with Substances and Light

A supramolecular assembly-based strategy towards the generation and amplification of photon up-conversion and circularly polarized luminescence

Double-Model Decay Strategy Integrating Persistent Photogenic Radicaloids with Dynamic Circularly Polarized Doublet Radiance and Triplet Afterglow

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