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Nonconjugated Polyesters Emitting Full-Color Clusteroluminescence

Bo Chu, Haoke Zhang, Xinghong Zhang, Ben Zhong Tang

2025Accounts of Chemical Research24 citationsDOI

Abstract

Conspectus Photoluminescent polymers have been attracting great attention, owing to their intrinsic mechanical properties, diverse structures, and the ability of intra/inter-chain interactions to regulate their luminescent properties. Conventional luminescent polymers contain classical luminophores, such as extended π-conjugated aromatic carbocyclic and heterocyclic groups, which could emit multicolor photoluminescence (PL) but suffer from biotoxicity, poor processability, complicated synthesis, and environmental hazards. In recent decades, heteroatom (e.g., O, N)-rich nonconjugated polymers without classical luminophores have been revealed to exhibit abnormal photoluminescence, namely, clusteroluminescence (CL), originating from through-space electronic interaction between heteroatomic groups. These newly discovered heteroatomic polymers take advantage of low cost, mass production, processability, and biocompatibility. Therefore, developing full-color CL polymers and revealing their unique PL mechanisms are highly desired in chemistry, biology, and material science. In this Account, we summarize our research on nonconjugated polyester for high-efficiency full-color CL via structure-driven through-space ( n, π*) interaction (TSI-( n, π*)), as a new paradigm for designing nonconjugated CL polymers with deeper insight into CL, including the molecular design of polyesters, the structure–luminescence relationship, and mechanism. This Account starts with a brief introduction to the recent development of CL in heteroatom-rich polymers as well as polyesters containing n and π electrons as one of the classical CL polymers. Then, we discuss the synthetic methods of polyesters based on the polymerization-induced emission (PIE) strategy, transforming nonluminescent monomer into luminescent polyester, or achieving red shifts in the emission wavelength through multiple through-space electronic interactions from polymer hierarchical structures. The third part summarizes the regulation of CL properties (wavelength and efficiency) by altering TSI-( n, π*) relying on hierarchical structures (segmental structures, conformation, end-group structures, and electronic bridge structures) of polyesters, achieving high-efficiency full-color CL (400–800 nm) from blue to near-infrared (NIR). We then proposed subnanometer TSI-( n, π*) and photomodulated through-space electronic coupling in polyesters for CL mechanism and provided an outlook on the development of CL polyester materials and applications.

Topics & Concepts

PolyesterFull colorChemistryPolymer scienceMaterials scienceOrganic chemistryOptoelectronicsLuminescence and Fluorescent MaterialsNanoplatforms for cancer theranosticsPolydiacetylene-based materials and applications