Crystal Structure of Electroceramics by Stevin Snellius PramanaCrystal Structure of Electroceramics by Stevin Snellius Pramana

Crystal Structure of Electroceramics

Guest editorStevin Snellius Pramana

Paperback | November 20, 2017

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Electrical, optical, ionic and magnetic properties of ceramics are primarily dictated by their crystal structure. They can be improved by introducing impurities, creating long range order/short range order/disorder, engineering defects and utilising specific crystal anisotropy and orientation. This Special Issue is aimed at manuscripts focusing on the recent development of electroceramics and its relation to the crystallography, including the characterisation aspect.

In particular, the topic of interest covers the review paper on principles, difficulties and progress of crystal structure determination and refinement from powder diffraction, and ferroelectricity in binary crystals. Other interesting piezoelectric, electrical conducting, dielectric and ferroelectric ceramics are reported with various crystal structural characterisation and microscopy techniques.

Title:Crystal Structure of ElectroceramicsFormat:PaperbackProduct dimensions:138 pages, 9.61 × 6.69 × 0.38 inShipping dimensions:9.61 × 6.69 × 0.38 inPublished:November 20, 2017Publisher:MDPI AGLanguage:English

The following ISBNs are associated with this title:

ISBN - 10:3038425931

ISBN - 13:9783038425939

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Table of Contents

1) Identity and Importance in Cosubstituted Bixbyite In2O3
2) High Performance BZT-0.5BCT Piezoelectric Nanoparticles Powders for Damping Vibration Absorber Application
3) Semiconductors for Infrared Laser Frequency Conversion
4) Properties of PTFE-Based Composites Filled by Micron/Submicron-Blended CCTO
5) A Diagram of the Structure Evolution of Pb(Zn1/3Nb2/3) O3-9%PbTiO3 Relaxor Ferroelectric Crystals with Excellent Piezoelectric Properties
6) Phase Transition Behavior of the Layered Perovskite CsBi0.6La0.4Nb2O7: A Hybrid Improper Ferroelectric
7) Crystal Structures from Powder Diffraction: Principles, Difficulties and Progress
8) Investigation into the Effect of Sulfate and Borate Incorporation on the Structure and Properties of SrFeO3-δ
9) Nb-Doped 0.8BaTiO3-0.2Bi(Mg0.5Ti0.5)O3 Ceramics with Stable Dielectric Properties at High Temperature
10) Microstructure and Electrical Properties of Fe,Cu Substituted (Co,Mn)3O4 Thin Films
11) Element Strategy Using Ru-Mn Substitution in CuO-CaCu3Ru4O12 Composite Ceramics with High Electrical Conductivity
12) Ferroelectricity in Simple Binary Crystals