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Reproducibility and ferroelectric fatigue of lead zirconate titanate thin films deposited directly on copper via a composite gel architecture
Mark D. Losego,
Jon Paul Maria
Materials Science and Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
8
Scopus citations
Overview
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Dive into the research topics of 'Reproducibility and ferroelectric fatigue of lead zirconate titanate thin films deposited directly on copper via a composite gel architecture'. Together they form a unique fingerprint.
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Engineering & Materials Science
Aging of materials
15%
Annealing
18%
Capacitors
14%
Composite materials
43%
Copper
61%
Durability
15%
Electrodes
29%
Fatigue of materials
52%
Ferroelectric materials
99%
Gels
79%
Lead zirconate titanate
91%
Metal foil
61%
Oxides
16%
Polarization
34%
Precious metals
100%
Printed circuit boards
18%
Substrates
26%
Thin films
71%
Chemical Compounds
Annealing
19%
Behavior as Electrode
25%
Capacitor
25%
Composite Material
37%
Ferroelectric Switching
45%
Foil
75%
Gel
47%
Liquid Film
24%
Metal
11%
Metal Oxide
20%
Noble Metal
72%
Oxide
13%
Polarization
37%
Time
9%