The mysterious blue emission around 440 nm in carbonyl‐based aliphatic clusteroluminogens

Zhang, Zhiming; Zhang, Ziteng; Zhang, Haoke; Sun, Jing; Tang, Ben Zhong

doi:10.1002/pol.20210954

Cited by 29 publications

(25 citation statements)

References 50 publications

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“…The maximum PL peak is at 460 nm which is the typical n−π* transition peak of isolated C�O groups according to our previous results. 46,47 Meanwhile, the PL spectra of P1∼P6 both in DCM and solid state (Figures 2B and S69−S70) show a clear excitation-dependent emission (EDE) effect with the transformation from dominant shortwavelength emission (∼460 nm) to negligible long-wavelength emission (∼530 nm). Concentration-dependent PL spectra and excitation-spectra of P2 in DCM were measured and show a similar clusterization-triggered emission (CTE) effect that PL intensity is enhanced with concentration (c) increasing from 10 −5 M to 10 −1 M (Figures 2C and S71).…”

Section: ■ Results and Discussionmentioning

confidence: 99%

Aliphatic Polyesters with White-Light Clusteroluminescence

et al. 2022

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Single-molecule white-light emission (SMWLE) has many advantages in practical applications; however, the fabrication of SMWLE from nonconjugated luminescent polymers, namely, clusteroluminogens (CLgens), is still a big challenge. Herein, the first example of linear nonconjugated polyesters with SMWLE is reported. Twenty-four kinds of nonconjugated aliphatic polyesters with tunable clusteroluminescence (CL) colors and efficiency were synthesized by the copolymerization of six epoxides and four anhydrides. Experimental and calculation results prove that, at the primary structure level, the balance of structural flexibility and rigidity via adjusting the side-chain length significantly enhances the efficiency of CL without wavelength change. However, altering the chemical structures of the monomer from succinic anhydride to trans-maleic anhydride (MA), cis-MA, and citraconic anhydride (CA), secondary structures of these polyesters change from helix to straight and folding sheet accompanied by gradually red-shifted CL from 460 to 570 nm due to the increase in through-space n–π* interactions, as demonstrated by the computational and experimental results. Then, pure SMWLE with CIE coordination (0.30, 0.32) based on overlapped short-wavelength and long-wavelength CL is achieved in CA-based polyesters. This work not only provides further insights into the emission mechanism of CL but also provides a new strategy to manipulate the properties of CL by regulating the hierarchical structures of CLgens.

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Section: ■ Results and Discussionmentioning

confidence: 99%

Aliphatic Polyesters with White-Light Clusteroluminescence

et al. 2022

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“…Because the carboxylic acid group of AAc is a strong hydrogen donor while the amide group of NVCL can act as hydrogen acceptor, their copolymers can form stable intrachain and interchain H-bonds. The rigidity of the polymer chains is thus improved, which facilitates the n−π* transition of the carbonyl groups and provides a characteristic emission around 440 nm. − …”

Section: Results and Discussionmentioning

confidence: 99%

“…Meanwhile, the absorbance peak at ∼270 nm and PL peak at ∼440 nm also ascend with the concentration (Figures b,c and S3a,b). These facts suggest that π–π* and n−π* interactions between the heteroatoms on the copolymers are enhanced with higher density of polymer–polymer H-bonds at higher concentration. , We also investigated the effect of nonsolvent on the fluorescence of polymer solutions (Figure S5). With the addition of dibutyl ether (DBE), the nonsolvent, into the DMF solution of the copolymer, the fluorescence intensity of the polymer mixed solution first increased until the volume fraction of DBE reached 25% and then decreased suddenly.…”

Section: Results and Discussionmentioning

confidence: 99%

Hydrogen-Bonding-Induced Clusteroluminescence and UCST-Type Thermoresponsiveness of Nonconjugated Copolymers

Liu

Han

et al. 2022

Macromolecules

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Stimuli-responsive light-emitting polymers (SRLEPs) have many promising applications. However, the synthesis of SRLEPs from nonconjugated and water-soluble monomers remains a challenge. Herein, for the first time, nonconjugated luminescent polymers with an upper critical solution temperature (UCST) in aqueous solution are reported. The polymer is synthesized through copolymerization of a strong hydrogen-donating monomer, acrylic acid (AAc), and a strong hydrogen-accepting monomer, N-vinylcaprolactam (NVCL). The polymer–polymer hydrogen-bonding rigidifies the chain conformation and enhances the clustering of the heteroatoms and carbonyl groups, resulting in an improved clusteroluminescence. Meanwhile, the polymer–polymer hydrogen bonding also brings in dynamic chain association that can be switched with temperature, yielding a UCST-type thermoresponsiveness in aqueous solution. This work demonstrates a novel and facile method of designing SRLEPs through tailoring the hydrogen bonds in the polymer. The properties of clusteroluminescence and thermoresponsiveness of the AAc–NVCL copolymers may render themselves with applications as temperature-sensitive biosensing.

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“…Based on the above results, the mechanism leading to EDE is proposed as shown in Scheme 1. When the concentration is lower than CCC, no cluster is formed, and the TSI-n-p of the adjacent carbonyl units similar to the single-molecular state is dominant, 49 showing the EIE phenomenon. At high concentrations, in addition to the TSI-n-p of adjacent carbonyl units, there exist diverse clusters with different conjugation degrees owing to the carbonyl clusters 43,44 and the interactions of phenyl groups.…”

Section: Resultsmentioning

confidence: 99%