Me4NHSO4和纳米复合材料Me4NHSO4 - SiO2的结构转变和质子电导率

IF 3 4区材料科学 Q3 CHEMISTRY, PHYSICAL

Solid State Ionics Pub Date : 2025-03-17 DOI:10.1016/j.ssi.2025.116810

V.G. Ponomareva, I.N. Bagryantseva, E.S. Shutova, T.N. Drebushchak, N.F. Uvarov

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引用次数: 0

摘要

研究了季铵类化合物- Me4NHSO4。首先对Me4NHSO4在较宽温度范围内的质子电导率和结构转变进行了详细分析。Me4NHSO4在120°С处发生相变，中间相出现，并伴有硫酸盐四面体的取向紊乱。首次观察到在210℃时缓慢相变到高温相。据推测，高温相对应于四方共体。质子电导率的温度依赖性与结构相变完全对应，在120°C时活化能从1.8 eV到0.7 eV显著变化，直至250°C。高温相Me4NHSO4的质子电导率比相关的Et4NHSO4化合物高出一个数量级，在250℃时达到4*10−4 S/cm。研究了含Me4NHSO4和分散二氧化硅复合材料的电输运和结构特性。所研究的（1-x） Me4NHSO4-xSiO2复合材料（x = 0.5和0.7）具有不同程度的盐非晶化和电导率的提高。

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Structural transformations and proton conductivity of Me4NHSO4 and nanocomposites Me4NHSO4 - SiO2

The study is devoted to the quaternary ammonium compounds - Me₄NHSO₄. The detailed analysis of the proton conductivity and structural transformations of Me₄NHSO₄ in a wide temperature range was carried out firstly. A phase transition of Me₄NHSO₄ at 120°С associated with the appearance of intermediate phase with some orientational disorder of sulfate tetrahedra was observed. The slow rate phase transition at 210 °C to a high-temperature phase was firstly observed. Presumably the high-temperature phase corresponds to a tetragonal syngony. The temperature dependence of the proton conductivity fully corresponds to the structural phase transitions with the significant change of the activation energy at 120 °C from 1.8 eV to 0.7 eV up to 250 °C. The proton conductivity of Me₄NHSO₄ of the high temperature phase is an order of magnitude higher than that of the related Et₄NHSO₄ compound and reaches 4*10⁻⁴ S/cm at 250 °C. The electrotransport and structural characteristics of Me₄NHSO₄ and dispersed silicon dioxide containing composites were also investigated. The investigated (1-x)Me₄NHSO₄–xSiO₂ composites (x = 0.5 and 0.7) are characterized by the different degree of salt amorhpization and the conductivity increase.

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来源期刊

Solid State Ionics 物理-物理：凝聚态物理

CiteScore

6.10

自引率

3.10%

发文量

152

审稿时长

58 days

期刊介绍： This interdisciplinary journal is devoted to the physics, chemistry and materials science of diffusion, mass transport, and reactivity of solids. The major part of each issue is devoted to articles on: (i) physics and chemistry of defects in solids; (ii) reactions in and on solids, e.g. intercalation, corrosion, oxidation, sintering; (iii) ion transport measurements, mechanisms and theory; (iv) solid state electrochemistry; (v) ionically-electronically mixed conducting solids. Related technological applications are also included, provided their characteristics are interpreted in terms of the basic solid state properties. Review papers and relevant symposium proceedings are welcome.