A. A. Glukhov, O. G. Reznitskikh, T. V. Yaroslavtseva, N. V. Urusova, A. E. Ukshe, Yu. A. Dobrovolsky, O. V. Bushkova
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It is shown that in the studied interval of compositions, the ionic conductivity of CsAg<sub>4</sub>Br<sub>3 –</sub> <sub><i>х</i></sub>I<sub>2 +</sub> <sub><i>х</i></sub> solid solutions is practically independent of <i>x,</i> approaching the conductivity of the well-known superionic conductor RbAg<sub>4</sub>I<sub>5</sub>. The activation energy of conduction is found to be about 10 kJ mol<sup>–1</sup> for all compounds studied. The oxidation potential determined by the method of stepwise polarization for CsAg<sub>4</sub>Br<sub>3 –</sub> <sub><i>х</i></sub>I<sub>2 +</sub> <sub><i>х</i></sub> solid solutions is considerably higher as compared with RbAg<sub>4</sub>I<sub>5</sub>, being in the range of 0.75–0.78 V (vs. Ag<sup>0</sup>/Ag<sup>+</sup>). 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引用次数: 0
摘要
摘要 通过固态合成法制备了 CsAg4Br3 - хI2 + х (x = 0.38; 0.50; 0.68) 固溶体;利用 X 射线衍射和差示扫描量热法确认了产物的单相性。对 CsAg4Br3 - хI2 + х 的电传输特性的研究包括在 -50 至 +120°C 的温度区间内用四探针法测量离子电导率,并用赫伯-瓦格纳法估算其电子成分。结果表明,在所研究的成分区间内,CsAg4Br3 - хI2 + х 固溶体的离子电导率实际上与 x 无关,接近著名的超离子导体 RbAg4I5 的电导率。研究发现,所有化合物的传导活化能约为 10 kJ mol-1。与 RbAg4I5 相比,用逐步极化法测定的 CsAg4Br3 - хI2 + х 固溶体的氧化电位要高得多,在 0.75-0.78 V 之间(相对于 Ag0/Ag+)。CsAg4Br3 - хI2 + х(0.38 ≤ x ≤ 0.63)具有很高的电化学特性,而且在所考虑的-160°С 到熔点(175-178°С)的区间内没有多晶态转变,这使得这些材料有望用于电化学设备,尤其是低温应用。
Electrochemical Properties of Superionic Conductors CsAg4Br3 – хI2 + х
Solid solutions CsAg4Br3 –хI2 +х (x = 0.38; 0.50; 0.68) are prepared by solid-state synthesis; the single phase of the products is confirmed using the methods of X-ray diffraction and differential scanning calorimetry. The studies of electrotransport characteristics of CsAg4Br3 –хI2 +х involve measuring the ionic conductivity by the four-probe method in the temperature interval from –50 to +120°C and estimating its electronic component by the Hebb–Wagner method. It is shown that in the studied interval of compositions, the ionic conductivity of CsAg4Br3 –хI2 +х solid solutions is practically independent of x, approaching the conductivity of the well-known superionic conductor RbAg4I5. The activation energy of conduction is found to be about 10 kJ mol–1 for all compounds studied. The oxidation potential determined by the method of stepwise polarization for CsAg4Br3 –хI2 +х solid solutions is considerably higher as compared with RbAg4I5, being in the range of 0.75–0.78 V (vs. Ag0/Ag+). The high electrochemical characteristics of CsAg4Br3 –хI2 +х (0.38 ≤ x ≤ 0.63) and the absence of polymorphic transitions in the considered interval from –160°С to the melting point (175–178°С) make these materials promising for the use in electrochemical devices, especially in low-temperature applications.
期刊介绍:
Russian Journal of Electrochemistry is a journal that covers all aspects of research in modern electrochemistry. The journal welcomes submissions in English or Russian regardless of country and nationality of authors.
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