Structure and Conductivity of Crosslinked Ca-POE Polymer Electrolytes for Secondary Batteries

IF 3.5 4区 化学 Q2 ELECTROCHEMISTRY
Dr. Federico Brombin, Dr. Gioele Pagot, Prof. Keti Vezzù, Dr. Raul San Roman, Prof. Cynthia Susana Martinez Cisneros, Dr. Nieves Ureña, Prof. Alejandro Varez, Prof. Jean-Yves Sanchez, Prof. Vito Di Noto
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Abstract

Poly(oxyethylene) (POE) is frequently used as suitable component to prepare solid polymer electrolytes (SPEs), due to its: (i) ability to coordinate and dissociate doping salts; (ii) good mechanical properties; and (iii) high chemical and electrochemical stability. With the aim to obtain calcium secondary batteries, here we describe the preparation and studies of crosslinked Ca-polycondensate (NPCY) electrolytes with formula NPCY/(CaTf2)x based on fragments of POE chains and CaTf2. The molecular weight of POE precursors is Y=400 and 1000 g ⋅ mol−1. The effect of POE molecular weight on the thermal, structural, and electrical properties of NPCY/(CaTf2)x is investigated revealing that in mesoscale this materials show: (i) two different nanodomains with polyether chains both “free” (not coordinating the cation) and involved in 4–4 coordination cages of Ca2+ metal ions; (ii) fα-fast, fα-cross and fα-slow relaxation modes of polyether chains, detected by broadband electrical spectroscopy, which are coupled with the long-range charge migration pathways of SPEs; (iii) that triflate (Tf) anions, which act as plasticizers, modulate the inter-chain migration processes of Ca2+ between polyether coordination sites. Finally, the conductivity values of NPCY/(CaTf2)x, which is up to 10−4 S ⋅ cm−1 at 80 °C, classify NPCY/(CaTf2)x as promising SPEs for the development of calcium secondary batteries.

Abstract Image

用于二次电池的交联 Ca-POE 聚合物电解质的结构和电导率
聚氧乙烯(POE)经常被用作制备固体聚合物电解质(SPE)的合适成分,这是因为它具有以下特性:(i) 配位和离解掺杂盐的能力;(ii) 良好的机械性能;(iii) 较高的化学和电化学稳定性。为了获得钙二次电池,我们在此介绍基于 POE 链片段和 CaTf2 的交联 Ca 聚缩醛(NPCY)电解质的制备和研究。POE 前体的分子量为 Y=400 和 1000 g⋅ mol-1。通过研究 POE 分子量对 NPCY/(CaTf2)x的热学、结构和电学特性的影响,发现这种材料在介观尺度上表现出以下特性:(i) 具有两种不同的纳米域,聚醚链既 "自由"(不与阳离子配位)又参与 Ca2+ 金属离子的 4-4 配位笼;(ii) 通过宽带电光谱仪检测到聚醚链的 fα 快速、fα 交叉和 fα 慢弛豫模式,这些模式与 SPE 的长程电荷迁移路径相耦合;(iii) 作为增塑剂的三氟酸根(Tf-)阴离子可调节 Ca2+ 在聚醚配位位点之间的链间迁移过程。最后,NPCY/(CaTf2)x 在 80 °C 时的电导率值高达 10-4 S ⋅ cm-1,这使得 NPCY/(CaTf2)x 成为有望开发钙二次电池的固相萃取剂。
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来源期刊
ChemElectroChem
ChemElectroChem ELECTROCHEMISTRY-
CiteScore
7.90
自引率
2.50%
发文量
515
审稿时长
1.2 months
期刊介绍: ChemElectroChem is aimed to become a top-ranking electrochemistry journal for primary research papers and critical secondary information from authors across the world. The journal covers the entire scope of pure and applied electrochemistry, the latter encompassing (among others) energy applications, electrochemistry at interfaces (including surfaces), photoelectrochemistry and bioelectrochemistry.
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