Electroceramics in Japan XV

Electroceramics in Japan XV

Description:

Volume is indexed by Thomson Reuters CPCI-S (WoS).
The major topics covered by this collection include dielectrics, piezoelectric ceramics, ferroelectrics, lead free piezoelectric ceramics, Li-ion battery related materials, secondary batteries, solid oxide fuel cells, dye-sensitized solar cells, properties and processing of thin films, magnetic ceramics, semiconductor ceramics, sensors, and ceramic science and processing. The microstructure of materials varied between single crystals, bulk ceramics, thin films, and nanocrystals. All papers collected in this book were reviewed and cover the latest developments in science and technology of electroceramics.

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Info:

Editors:
K. Katayama, K. Kato, K. Shinozaki, T. Mizoguchi and M. Miyayama
THEMA:
TGM
BISAC:
TEC021000
Details:
Selected, peer reviewed papers from the 31st Electronics Division Meeting of the Ceramic Society of Japan, October 28-29, 2011, Tokyo, Japan
Pages:
328
Year:
2013
ISBN-13 (softcover):
9783037857618
ISBN-13 (CD):
9783037954973
ISBN-13 (eBook):
9783038261421
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Review from Ringgold Inc., ProtoView: The 69 selected and peer reviewed papers cover dielectric, piezoelectric, and ferroelectric ceramics; lead-free piezoelectric ceramics; materials relate to lithium-ion batteries; other batteries and energy related materials; thin film properties and science; thin film processing; magnetic and semiconductor ceramics; sensors and ceramic science; and processing ceramics. Among the topics are the effect of ferroelectric domain on fatigue fracture behavior in piezoelectric ceramics, preparing bismuth copper-based perovskite-type ceramics and their piezoelectric properties, the microstructure of titanium oxide films for dye-sensitized solar cells, absorption characteristics of composite electromagnetic wave absorber made of sendust particles dispersed in a polystyrene resin, controlling the microstructure of potassium niobate porous ceramics and their sensor properties, and the crystallization of tungstenbronze phase and its inelastic light scattering in niobiophosphate-system glass.