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Hydrothermal growth of epitaxial PZT
G. A. Rossetti
, P. Pinceloup
, M. Oledzka
, W. Suchanek
, K. Mikulka-Bolen
, M. M. Lencka
, M. Emre
, T. Lee
,
C. Zhu
,
R. Dave
, L. E. McCandlish
, R. E. Riman
Mechanical and Industrial Engr
Chemical and Materials Engineering
New Jersey Center for Engineered Particulates
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Keyphrases
Epitaxy
100%
Hydrothermal Growth
100%
Epitaxial PZT
100%
PZT Film
66%
Electrolyte Solution
33%
Hydrated Oxides
33%
Crystallization
33%
Large Crystal
33%
Porosity
33%
Reactor
33%
Ferroelectric Thin Film
33%
Solution Composition
33%
Illustrative Examples
33%
Crystallization Mechanism
33%
Crystallizer
33%
Film Growth
33%
Phase Characteristics
33%
Particle Impingement
33%
Free-standing Film
33%
Strontium Titanate
33%
Titanium-zirconium
33%
Lead Zirconate Titanate
33%
Material Science
Epitaxy
100%
Film
66%
Oxide Compound
33%
Zirconium
33%
Ferroelectric Thin Films
33%
Titanium
33%
Strontium
33%
Film Growth
33%
Titanate
33%
Lead Zirconate Titanate
33%