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Физика твердого тела Pub Date : 2023-01-01 DOI:10.21883/ftt.2023.01.53931.498

Николай Иванович Сорокин, Н. А. Ивановская, И. И. Бучинская

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摘要

利用302 ~ 779 K温度范围内的阻抗谱技术，研究了由pb2和PrF3组分机械合成的粉末冷压制备的Pr0.9Pb0.1F2.9纳米陶瓷的离子电导率。研究材料为铁长石型结构的固溶体(sp. gr. P-3c1, Z = 6)，晶格参数a = 7.0906(4)和c = 7.2538(4) a。随着温度的升高，陶瓷的电导率由1.9 × 10-5增加到6.7 × 10-2 S/cm，在302-502和502-779 K下离子输运激活焓Hσ分别为0.407±0.005和0.345±0.005 eV。导电机制是由于氟空位沿纳米晶粒边界的迁移。陶瓷的粒内电导率接近相同成分的单晶的电导率。冷压陶瓷Pr0.9Pb0.1F2.9可作为“室内”氟离子电流源中有前景的固体电解质。

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Ионная проводимость нанокерамики холодного прессования Pr-=SUB=-0.9-=/SUB=-Pb-=SUB=-0.1-=/SUB=-F-=SUB=-2.9-=/SUB=-, полученной механосинтезом компонентов

The impedance spectroscopy in the temperature range 302–779 K was used to study the ionic conductivity of the Pr0.9Pb0.1F2.9 nanoceramics, obtained by cold pressing of the powder, mechanically synthesized from components of PbF2 and PrF3. The studied material is the solid solution with tysonite-type structure (sp. gr. P-3c1, Z = 6) and lattice parameters a = 7.0906(4) and c = 7.2538(4) A. With increasing temperature, the conductivity of the ceramic increases from 1.9 × 10–5 to 6.7 × 10–2 S/cm, and the activation enthalpy of ion transport Hσ = 0.407 ± 0.005 and 0.345 ± 0.005 eV at 302–502 and 502–779 K, respectively. The electrical conductivity mechanism is due to the migration of fluorine vacancies along the boundaries of nanocrystalline grains. The intragranular conductivity of ceramics is close to the electrical conductivity of a single crystal of the same composition. Cold pressed ceramics Pr0.9Pb0.1F2.9 can be used as a promising solid electrolyte in ”room" fluorine-ion current sources.

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Физика твердого тела

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