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Ultrasmooth CN
x
overcoats for next-generation hard disks
De Jun Li
*
,
Yip Wah Chung
*
Corresponding author for this work
Materials Science and Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
11
Scopus citations
Overview
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x
overcoats for next-generation hard disks'. Together they form a unique fingerprint.
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INIS
substrates
100%
rotation
71%
coatings
57%
sputtering
42%
growth
28%
films
28%
gases
28%
roughness
28%
helium
14%
surfaces
14%
comparative evaluations
14%
performance
14%
power
14%
damage
14%
speed
14%
roots
14%
sampling
14%
corrosion
14%
magnetic disks
14%
thickness
14%
atomic force microscopy
14%
carbon nitrides
14%
Physics
Substrates
71%
Rotation
71%
Coating
57%
Atomic Force Microscopy
14%
Magnetron Sputtering
14%
Surface Roughness
14%
Carbon Nitride
14%
Area
14%
Growth
14%
Performance
14%
Gases
14%
Targets
14%
Speed
14%
Sampling
14%
Engineering
Substrates
71%
Coating
57%
Substrate Bias
28%
Gas Composition
14%
Root Mean Square
14%
Square Roughness
14%
Corrosion Damage
14%
Hard Disk
14%
Performance
14%
Properties
14%
Thickness
14%
Chemistry
Rotation
71%
Coating Agent
57%
Atomic Force Microscopy
14%
Magnetron Sputtering
14%
Oxalonitrile
14%
Gas
14%
Time
14%
Sampling
14%
Roughness
14%
Thickness
14%
Holder
14%
Material Science
Coating
57%
Helium
14%
Film
14%
Gas
14%
Film Growth
14%
Medicine and Dentistry
Growth
28%
Chlormethine
14%
Atomic Force Microscopy
14%
Helium
14%
Carbon
14%