Design of Highly Conductive PILs by Simple Modification of Poly(epichlorohydrin-co-ethylene oxide) with Monosubstituted Imidazoles

IF 4.7 Q1 POLYMER SCIENCE

ACS polymers Au Pub Date : 2024-09-12 DOI:10.1021/acspolymersau.4c00051

Daniil R. Nosov, Elena I. Lozinskaya, Dmitrii Y. Antonov, Denis O. Ponkratov, Andrey A. Tyutyunov, Malak Alaa Eddine, Cédric Plesse, Daniel F. Schmidt, Alexander S. Shaplov

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Abstract

High ionic conductivity poly(ionic liquid)s (PILs) are of growing interest for their thermal and electrochemical stability, processability, and potential in safe, flexible all-solid-state electrochemical devices. While various approaches to enhance the ionic conductivity are reported, the influence of cation substituents is rarely addressed. Moreover, some of the asymmetric anions recently developed for high-conductivity ionic liquids were never tested in PILs. We report the design and synthesis of twelve novel cationic PILs prepared via quaternization of N-substituted imidazoles by commercially available poly(epichlorohydrin-co-ethylene oxide) (poly(EPCH-r-EO)) with subsequent ion metathesis. They differ by imidazolium side chain length (C₁–C₆ alkyl) and presence of heteroatoms (silyl, siloxane, and fluoroalkyl) and by anion type (bis(trifluoromethylsulfonyl)imide (TFSI), 2,2,2-trifluoromethylsulfonyl-N-cyanoamide (TFSAM), tetrafluoroborate (BF₄), trifluoro(trifluoromethyl)borate (BF₃CF₃), and tricyanofluoroborate (BF(CN)₃)). TFSI-based PILs with alkyl side chains gave lower glass transition temperatures (T_g) and higher ionic conductivities than those bearing heteroatomic substituents, with n-butyl side chains providing a conductivity of 4.7 × 10^–6 S cm^–1 at 25 °C under anhydrous conditions. This increased to 1.0 × 10^–5 and 4.5 × 10^–4 S cm^–1 at 25 and 70 °C, respectively, when the TFSI anion was replaced with BF(CN)₃. All PILs showed good electrochemical (>3.2 V vs Ag⁺/Ag) and thermal (>185 °C) stability, making them excellent candidates for solid-state electrolytes in electrochemical devices.

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用单取代咪唑对聚（环氧氯丙烷-环氧乙烷）进行简单改性设计高导电性 PIL

高离子电导率聚（离子液体）因其热稳定性和电化学稳定性、可加工性以及在安全、灵活的全固态电化学装置中的应用潜力而日益受到关注。虽然提高离子电导率的方法层出不穷，但阳离子取代基的影响却鲜有报道。此外，最近开发的一些用于高电导率离子液体的不对称阴离子从未在 PIL 中进行过测试。我们报告了十二种新型阳离子 PIL 的设计与合成，这些 PIL 是通过市售的聚环氧氯丙烷-环氧乙烷（poly(EPCH-r-EO)）对 N-取代咪唑进行季铵化并随后进行离子偏聚而制备的。它们因咪唑侧链长度（C1-C6 烷基）、杂原子（硅烷基、硅氧烷基和氟烷基）的存在以及阴离子类型（双（三氟甲基磺酰基）亚胺（TFSI））而有所不同、2,2,2-三氟甲磺酰-N-氰酰胺（TFSAM）、四氟硼酸盐（BF4）、三氟（三氟甲基）硼酸盐（BF3CF3）和三氰氟硼酸盐（BF(CN)3））。与含有杂原子取代基的 PIL 相比，带有烷基侧链的 TFSI 基 PIL 具有更低的玻璃化转变温度（Tg）和更高的离子电导率，其中正丁基侧链在 25 °C 无水条件下的电导率为 4.7 × 10-6 S cm-1。当 TFSI 阴离子被 BF(CN)3 取代时，25 ℃ 和 70 ℃ 下的电导率分别增至 1.0 × 10-5 和 4.5 × 10-4 S cm-1。所有 PIL 都表现出良好的电化学稳定性（3.2 V vs Ag+/Ag）和热稳定性（185 °C），是电化学设备中固态电解质的理想候选材料。

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来源期刊

ACS polymers Au

CiteScore

2.50

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0.00%

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