Reprint

Advances in Electronic Ceramics

Edited by
May 2025
228 pages
  • ISBN 978-3-7258-3922-3 (Hardback)
  • ISBN 978-3-7258-3921-6 (PDF)

This is a Reprint of the Special Issue Advances in Electronic Ceramics that was published in

Engineering
Summary

Recent advancements in electronic ceramics have revolutionized their role in modern technology, driven by innovations in material synthesis, processing techniques, and application-specific designs. Electronic ceramics, such as dielectric, piezoelectric, semiconductive, and ferroelectric materials, now exhibit enhanced performance metrics, including higher energy efficiency, superior thermal stability, and tailored electromagnetic properties. Breakthroughs in nanostructuring and additive manufacturing have enabled precise control over microstructures, resulting in ceramics with unprecedented dielectric constants, piezoelectric coefficients, and mechanical resilience. These materials are critical in next-generation applications like 5G communication systems, high-frequency sensors, energy storage devices, and solid-state batteries. Additionally, eco-friendly synthesis methods and the integration of ceramics with flexible substrates are expanding their use in wearable electronics and IoT devices. As research pushes the boundaries of multifunctional ceramics and hybrid composites, this field continues to underpin advancements in sustainable energy, smart infrastructure, and miniaturized electronic systems.

Related Books

May 2019

Ceramic Conductors

Chemistry & Materials Science
February 2020

Carbon Based Electronic Devices

Engineering
May 2024

Advances of Ceramic and Alloy Coatings

Chemistry & Materials Science
January 2021

Synthesis and Characterization of Ferroelectrics

Chemistry & Materials Science

The recommendations have been generated using an AI system.