説明:
(abstract)Linking molecular interactions to the macroscopic mechanical properties of soft materials remains a major challenge in soft-matter science. Here, we develop metal−polymer soft framework (MPF) ion gels, in which metal−ligand coordination complexes function as network-forming interchain bridges within a structurally homogeneous polymer network. Terpyridine-terminated TetraPEG prepolymers were cross-linked with divalent metal ions in an ionic liquid to form uniform coordinationbonded gel networks. The elastic modulus (G′) increased in the order Mg2+ < Zn2+ < Co2+ < Ni2+, and this trend was quantitatively reproduced by modeling the equilibrium distribution of bis-terpyridine complexes, M(tpy)2 2+, acting as network-forming interchain bridges in the polymer network. By integrating coordination thermodynamics with classical rubber elasticity, we established a quantitative framework that determines the stepwise equilibrium constants (K1 and K2) for mono and bis-terpyridine complex formation and accurately predicts the nonmonotonic dependence of G′ on metal-ion concentration. Furthermore, the stress relaxation time (τ) was found to increase with increasing coordination bond strength, indicating that the dynamic mechanical response is correlated with the strength of metal−ligand interactions. These results establish a quantitative framework linking coordination thermodynamics with macroscopic gel elasticity and further suggest that coordination interactions also play an important role in controlling the dynamic mechanical response, providing a basis for tuning the properties of coordination-bonded soft materials.
権利情報:
キーワード: ionic liquids, gels, ion gels, metal-ligand coordination, viscoelasticity, elasticity, supramolecular chemistry
刊行年月日: 2026-06-09
出版者: American Chemical Society (ACS)
掲載誌:
研究助成金:
原稿種別: 出版者版 (Version of record)
MDR DOI:
公開URL: https://doi.org/10.1021/acs.chemmater.6c00832
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更新時刻: 2026-07-07 09:46:23 +0900
MDRでの公開時刻: 2026-07-07 12:25:14 +0900
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[Chem.Mater.]metal-polymer-soft-framework-ion-gels-linking-coordination-chemistry-to-macroscopic-elasticity.pdf
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サイズ | 2.99MB | 詳細 |