<p>This study investigates the dielectric properties of polymer composites comprising an acrylic matrix and high-entropy oxide (HEO) (CoCrFeNiMn)<sub>3</sub>O<sub>4</sub> filler. Single-phase HEO was synthesized via solid-state reaction followed by calcination at 850&#xa0;°C (HEO-850). The research systematically examines the temperature- and concentration-dependent evolution of dielectric properties and charge transport mechanisms within these composite systems. Our findings reveal distinct correlations between filler concentration and dielectric performance enhancement. The unique properties of HEOs, stemming from their compositional complexity and structural characteristics, position these composite materials as promising candidates for advanced dielectric applications. The study elucidates fundamental parameters (temperature and filler concentration of HEO-850) governing the electrical behavior of HEO-polymer composites, providing insights into tailoring their properties for different technological applications.</p>

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

Thermal and filler concentration modulation of charge transport mechanism and dielectric properties in high-entropy oxide (CoCrFeNiMn)3O4-acrylic polymer composite

  • Samer I. Daradkeh,
  • Ammar Alsoud,
  • Tomáš Spusta,
  • Vaclav Pouchlý,
  • Alexandr Knápek,
  • Pavel Tofel,
  • Dinara Sobola

摘要

This study investigates the dielectric properties of polymer composites comprising an acrylic matrix and high-entropy oxide (HEO) (CoCrFeNiMn)3O4 filler. Single-phase HEO was synthesized via solid-state reaction followed by calcination at 850 °C (HEO-850). The research systematically examines the temperature- and concentration-dependent evolution of dielectric properties and charge transport mechanisms within these composite systems. Our findings reveal distinct correlations between filler concentration and dielectric performance enhancement. The unique properties of HEOs, stemming from their compositional complexity and structural characteristics, position these composite materials as promising candidates for advanced dielectric applications. The study elucidates fundamental parameters (temperature and filler concentration of HEO-850) governing the electrical behavior of HEO-polymer composites, providing insights into tailoring their properties for different technological applications.