Fig.1 General approaches to construct macrocycle⁃assembled AIE⁃SPs[1]Copyright 2024， Elsevier B.V.

Fig.2 Several schematic representations of typical host molecules and their chemical structures, respectively[47]Copyright 2024， the Royal Society of Chemistry.

Fig.3 Chemical structures of functionalized tetrastyrene derivatives of bis⁃crown ethers H(A), TPE⁃DDBC(B) and functionalized tetrastyrene derivatives of tetra crown ethers TPE⁃(B15C5)4(C), M4 and construction of crown ether⁃based AIE supramolecular polymers(B)[60—63]（A） Copyright 2019， Elsevier B.V.； （B） Copyright 2015， the Royal Society of Chemistry； （C） Copyright 2012， the Royal Society of Chemistry； （D） Copyright 2020， American Chemical Society.

Fig.4 Chemical structures of α⁃cyclodextrin derivatives α⁃CD⁃GEM(A), TPE⁃trtra⁃α⁃CD(B) and construction of PEI⁃βCD linear and cross⁃linked cyclodextrin⁃based AIE supramolecular polymers(C)[66—68]（A） Copyright 2020， American Chemical Society； （B） Copyright 2017， Elsevier B.V.；（C） Copyright 2021， Wiley-VCH GmbH.

Fig.5 Chemical structures of monomers and construction of cucurbituril⁃based AIE supramolecular polymers with different topologies(A), supramolecular organic framework of two⁃dimensional network(B) and tQ[14]⁃based AIE supramolecular polymers(C)[78,86,87]（A） Copyright 2020， American Chemical Society； （B） Copyright 2016， the Royal Society of Chemistry； （C） Copyright 2022， Wiley-VCH GmbH.

Fig.6 Chemical structure of monomers bis⁃p⁃sulfonatocalixarene(A), p⁃sulfonatocalix[4]arene and construction of calixarene⁃based AIE supramolecular polymers(B)[93,94]（A） Copyright 2014， the Royal Society of Chemistry； （B） Copyright 2020， American Chemical Society.

Fig.7 Chemical structure of monomers G⊂CP5L(A) and m⁃TPE Di⁃EtP5 construction of pillararene⁃based AIE supramolecular polymers(B)[109,110]（A） Copyright 2025， Elsevier B.V.； （B） Copyright 2023， Wiley-VCH GmbH.

Fig.8 Schematic diagram of the responsiveness of supramolecular polymers to stimuli

Fig.9 Linear AIE supramolecular polymer for the detection of heavy metal ions(A) and cross⁃linked AIE supramolecular polymer[117] for the detection of nitro compounds(B)[118]（A） Copyright 2019， American Chemical Society； （B） Copyright 2018， the Royal Society of Chemistry.

Fig.10 Formation of Ad/β⁃CD⁃PEG FONs through the host⁃guest interactions between AIE⁃active dye and the PEG containing β⁃CD and CLSM images of A549 cells incubated with Ph⁃Ad/β⁃CD⁃PEG FONs(A)[123] and the fluorescence spectra and photographs illuminated by the UV lamp at 365 nm of TPE⁃4P@tQ[14]p towards different M n+(B)[124]（A） Copyright 2018， Elsevier B.V.； （B） Copyright 2021， Elsevier B.V.

Fig.11 Schematic overview of the construction of a supramolecular nano⁃delivery system and the application for drug⁃resistance therapy and the cellular uptake of the GP5⁃Pro⁃ANI vesicles(A)[126], the diagram of constructing nano⁃thin film to regulate fluorescent nanoparticles(B)[127], fluorescence data and DLS plot of AP⁃TPE/C12⁃2 in THF treated with HCl and NaOH, repeatedly, and TEM and SEM images of AP⁃TPE and C12⁃2 after the acidification(C)[128]（A） Copyright 2022， the Royal Society of Chemistry； （B） Copyright 2021， the Royal Society of Chemistry； （B） Copyright 2015， the Royal Society of Chemistry.