Supramolecular Polymeric Fluorescent Nanoparticles Based on Quadruple Hydrogen Bonds

Peng, Hui‐Qing; Sun, Cai‐Li; Niu, Li‐Ya; Chen, Yuzhe; Wu, Li‐Zhu; Tung, Chen‐Ho; Yang, Qing‐Zheng

doi:10.1002/adfm.201600593

Cited by 110 publications

(51 citation statements)

References 62 publications

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“…Likewise, composite crystals of D and a non-TADF analog of A, A′ with a similar absorption spectrum as A manifested no detectable luminescence (Supporting Information Figure S11). This result is consistent with nonradiative relaxation of T 1 of A′ populated by an efficient triplet-to-triplet energy transfer from D. Although tuning emission properties by excitation energy transfer has been investigated extensively, 34,35,[39][40][41][42][43][44][45] to the best of our knowledge, our material is the first example to manifest persistent TADF by using triplet-triplet energy transfer.…”

Section: Resultssupporting

confidence: 84%

Organic Composite Crystal with Persistent Room-Temperature Luminescence Above 650 nm by Combining Triplet–Triplet Energy Transfer with Thermally Activated Delayed Fluorescence

et al. 2020

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Structural modifications are a successful and commonly used approach to tune the emission properties of diverse fluorophores, but extending this approach to heavy-atom-free persistent luminophores has so far been unsuccessful. Here we employed a novel strategy to demonstrate triplet-triplet energy transfer from an organic room-temperature phosphor (RTP) with persistent luminescence to an organic molecule with thermally activated delayed fluorescence (TADF). We illustrated this approach by preparing heavy-atom-free composite crystals of an RTP with a long-lifetime emission and a red emissive organic fluorophore with TADF to yield materials with emission above 650 nm. The emission arose from the triplet excited state of an acceptor undergoing thermally activated reverse intersystem crossing (RISC) to the emissive S 1 state. Such composite crystal is the first organic material with persistent TADF, achieved by triplet-triplet energy transfer.

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Section: Resultssupporting

confidence: 84%

Organic Composite Crystal with Persistent Room-Temperature Luminescence Above 650 nm by Combining Triplet–Triplet Energy Transfer with Thermally Activated Delayed Fluorescence

et al. 2020

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“…Here, the water‐dispersible nature makes the aqueous dispersion of the photoswitchable fluorescent LCNPs as green and eco‐friendly inks that are first applied to information encryption technology. Considering accuracy, readability of information, and operation simplicity of the information writing, inkjet printing is particularly appropriate when LCNPs are employed to construct system . The aqueous suspension in which the polymerized LCNPs are dispersed was concentrated by evaporating water at room temperature.…”

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confidence: 99%

Photoswitchable Fluorescent Liquid Crystal Nanoparticles and Their Inkjet‐Printed Patterns for Information Encrypting and Anti‐Counterfeiting

Tian

et al. 2019

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Liquid crystal nanoparticles (LCNPs) with desirable multifunctionality are catching increasing attention due to their promising applications in various fields. However, reversible photoswitchable fluorescent LCNPs are not reported until now. Here, the first example of water‐dispersible, reversibly phototunable fluorescent LCNPs prepared through a miniemulsion polymerization technique is presented. The LCNPs mainly consist of an aggregation‐induced emission enhancement (AIEE)‐active dicyanodistyrylbenzene‐based monomer, a LC cross‐linking monomer, and a dithienylethene (DAE) derivative as a photochromic molecular switch. The fluorescence of the resultant LCNPs can be switched reversibly between bright (ON) and dark (OFF) states with a high contrast and excellent repeatability upon alternating irradiation of 365 nm UV light and visible light (λ > 450 nm). This observation could be attributed to ring‐opening/ring‐closing photoisomerization of the DAE structure on the basis of an intraparticle fluorescence resonance energy transfer process between the AIEE‐active monomer and DAE derivative. More importantly, the potential for aqueous dispersion of the photoswitchable fluorescent LCNPs as a security ink for information encryption and anti‐counterfeiting is further demonstrated. The results demonstrate that the reversible photoswitchable fluorescent LCNPs as multifunctional nanomaterials exhibit promising applications in photonic fields.

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“…S34). It further demonstrated that these POSS-containing 2D nanocrystals functioned as excellent light-harvesting systems ( 28 , 58 ).…”

Section: Resultsmentioning

confidence: 92%

Programmable two-dimensional nanocrystals assembled from POSS-containing peptoids as efficient artificial light-harvesting systems

et al. 2021

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Inspired by the formation of hierarchically structured natural biominerals (e.g., bone and tooth), various sequence-defined polymers have been synthesized and exploited for design and synthesis of functional hybrid materials. Here, we synthesized a series of organic-inorganic hybrid peptoids by using polyhedral oligomeric silsesquioxane (POSS) nanoclusters as side chains at a variety of backbone locations. We further demonstrated the use of these hybrid peptoids as sequence-defined building blocks to assemble a new class of programmable two-dimensional (2D) nanocrystals. They are highly stable and exhibit an enhanced mechanical property and electron scattering due to the incorporated POSS nanoclusters. By varying peptoid side-chain chemistry, we further demonstrated the precise displacement of a large variety of function groups within these 2D nanocrystals and developed a highly efficient aqueous light-harvesting system for live cell imaging. Because these 2D nanocrystals are biocompatible and highly programmable, we expect that they offer unique opportunities for applications.

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Supramolecular Polymeric Fluorescent Nanoparticles Based on Quadruple Hydrogen Bonds

Cited by 110 publications

References 62 publications

Organic Composite Crystal with Persistent Room-Temperature Luminescence Above 650 nm by Combining Triplet–Triplet Energy Transfer with Thermally Activated Delayed Fluorescence

Organic Composite Crystal with Persistent Room-Temperature Luminescence Above 650 nm by Combining Triplet–Triplet Energy Transfer with Thermally Activated Delayed Fluorescence

Photoswitchable Fluorescent Liquid Crystal Nanoparticles and Their Inkjet‐Printed Patterns for Information Encrypting and Anti‐Counterfeiting

Programmable two-dimensional nanocrystals assembled from POSS-containing peptoids as efficient artificial light-harvesting systems

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