以滑石粉作为天然矿物填料和可生物降解聚合物基体的凝胶聚合物电解质在钠离子电池中的应用

Gel Polymer Electrolytes with Talc as a Natural Mineral Filler and a Biodegradable Polymer Matrix in Sodium-Ion Batteries.

作者信息

Swiderska-Mocek Agnieszka, Karczewska Izabela, Gabryelczyk Agnieszka, Popławski Mikołaj, Czarnecka-Komorowska Dorota

机构信息

Institute of Chemistry and Technical Electrochemistry, Poznan University of Technology, Berdychowo 4, 60-965, Poznan, Poland.

Faculty of Chemical Technology, Poznan University of Technology, Berdychowo 4, 60-965, Poznan, Poland.

出版信息

Chemphyschem. 2023 Oct 17;24(20):e202300090. doi: 10.1002/cphc.202300090. Epub 2023 Aug 4.

DOI:10.1002/cphc.202300090

PMID:37541308

Abstract

A gel polymer electrolyte based on poly(vinyl alcohol) (PVA) is used in sodium-ion batteries (SIBs). The use of biodegradable and water-soluble polymer potentially reduces the negative environmental impact. The other components include sodium salt (NaPF ), sulfolane (TMS) as a plasticizer and talc. For the first time, natural and abundant talc has been used as an inert filler in a gel polymer electrolyte. The best results were obtained for moderate amounts of filler (1 and 3 wt%). Then, an increase in the conductivity, transference numbers, and thermal stability of the membranes was observed. Moreover, the presence of talc had a positive effect on the cyclability of the hard carbon electrode. The discharge capacity after 50 cycles of HC|1 % T_TMS|Na and HC|3 % T_TMS|Na was 243 and 225 mAh g , respectively. The use of talc in gel polymer electrolytes containing sodium ions improves the safety and efficiency of SIBs.

摘要

一种基于聚乙烯醇（PVA）的凝胶聚合物电解质被用于钠离子电池（SIBs）。使用可生物降解且水溶性的聚合物有可能减少对环境的负面影响。其他成分包括钠盐（NaPF）、作为增塑剂的环丁砜（TMS）和滑石粉。天然且储量丰富的滑石粉首次被用作凝胶聚合物电解质中的惰性填料。对于适量的填料（1%和3%重量），获得了最佳结果。随后，观察到膜的电导率、迁移数和热稳定性有所提高。此外，滑石粉的存在对硬碳电极的循环性能有积极影响。HC|1% T_TMS|Na和HC|3% T_TMS|Na在50次循环后的放电容量分别为每克243和225毫安时。在含钠离子的凝胶聚合物电解质中使用滑石粉可提高钠离子电池的安全性和效率。

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以滑石粉作为天然矿物填料和可生物降解聚合物基体的凝胶聚合物电解质在钠离子电池中的应用

Gel Polymer Electrolytes with Talc as a Natural Mineral Filler and a Biodegradable Polymer Matrix in Sodium-Ion Batteries.

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