Journal
NANOMATERIALS
Volume 12, Issue 11, Pages -Publisher
MDPI
DOI: 10.3390/nano12111920
Keywords
sodium dodecyl sulfate; micelle cluster; directional ion transport channel; electrolyte; aqueous rechargeable battery
Categories
Funding
- Natural Science Foundation of Shandong Province [ZR2019MEM015]
- Young Taishan Scholar Program of Shandong Province [tsqn201909139]
- Introduction and Cultivation Plan of Young Innovative Talents in Colleges and Universities of Shandong Province
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This paper presents a low-cost and ecofriendly aqueous electrolyte with suppressed water reactivity and increased ionic conductivity. By optimizing the composition and structure of the electrolyte, a balance between reducing water reactivity and enhancing ionic conductivity is achieved. The results show that the electrolyte exhibits good ionic conductivity and stable electrochemical performance at lower temperatures.
Low-cost and ecofriendly electrolytes with suppressed water reactivity and raised ionic conductivity are desirable for aqueous rechargeable batteries because it is a dilemma to decrease the water reactivity and increase the ionic conductivity at the same time. In this paper, Li2SO4-Na2SO4-sodium dodecyl sulfate (LN-SDS)-based aqueous electrolytes are designed, where: (i) Na+ ions dissociated from SDS increase the charge carrier concentration, (ii) DS-/SO42- anions and Li+/Na+ cations are capable of trapping water molecules through hydrogen bonding and/or hydration, resulting in a lowered melting point, (iii) Li+ ions reduce the Krafft temperature of LN-SDS, (iv) Na+ and SO42- ions increase the low-temperature electrolyte ionic conductivity, and (v) SDS micelle clusters are orderly aggregated to form directional ion transport channels, enabling the formation of quasi-continuous ion flows without (r.t.) and with (<= 0 degrees C) applying voltage. The screened LN-SDS is featured with suppressed water reactivity and high ionic conductivity at temperatures ranging from room temperature to -15 degrees C. Additionally, NaTi2(PO4)(3)||LiMn2O4 batteries operating with LN-SDS manifest impressive electrochemical performance at both room temperature and -15 degrees C, especially the cycling stability and low-temperature performance.
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