INIS
polymerization
100%
surfaces
89%
atoms
57%
corrosion resistance
54%
substrates
44%
methacrylates
33%
nitinol
33%
titanium
33%
mpc
29%
layers
27%
applications
26%
phosphonic acids
26%
oxides
26%
phosphates
24%
films
21%
metals
19%
induction
16%
pyrroles
16%
copolymerization
16%
nanoparticles
16%
heating
16%
precursor
16%
plasma
16%
styrene
16%
nickel
16%
polymers
14%
surface properties
12%
molecules
8%
amines
7%
titanium oxides
7%
mechanical properties
5%
Material Science
Atom-Transfer Radical-Polymerization
93%
Corrosion Resistance
75%
Monolayers
41%
Titanium
33%
Polyelectrolyte
33%
Polymerization
32%
Biocompatibility
32%
Self Assembled Monolayer
27%
Corrosion
22%
Oxide Compound
19%
Biomaterial
16%
Phosphate Coating
16%
Chromium Alloys
16%
Copolymerization
16%
Metal Oxide
16%
Electropolymerization
16%
Nanoparticle
16%
Film
16%
Mixed Monolayers
16%
Hydrothermal Synthesis
16%
Surface Property
14%
Surface Functionalization
13%
Polypyrrole
11%
X-Ray Photoelectron Spectroscopy
10%
Mechanical Strength
8%
Cobalt
8%
Density
8%
Contact Angle
8%
Scanning Electron Microscopy
8%
Static Contact
8%
Titanium Dioxide
6%
Conducting Polymer
5%
Nucleation
5%
Nickel Ion
5%
Oxidation Reaction
5%
Keyphrases
Surface-initiated Atom Transfer Radical Polymerization (SI-ATRP)
33%
Phosphate
16%
2-hydroxyethyl Methacrylate
16%
2-methacryloyloxyethyl Phosphorylcholine
16%
Layer-by-layer Assembly
16%
Co-Cr Alloy
16%
Phosphate Coating
16%
ATRP Initiator
16%
Styrene Polymerization
16%
Ethyl
16%
Nickel Modification
16%
Spectroscopic Evaluation
16%
Core-shell Structure
16%
Phynox
16%
Metal Oxide Nanoparticles
16%
Nitinol
16%
Nitro Precursor
16%
NiTi
16%
Versatile Platform
16%
Mixed Monolayers
16%
High Corrosion Resistance
8%
Mechanical Biocompatibility
8%
Amidation Reaction
6%
Polyelectrolyte multilayers
6%
Heating Condition
5%
Polystyrene Layer
5%
Modified Titania
5%
Surface-initiated
5%
ZrO2 Nanoparticles
5%
Al2O3 Nanoparticles
5%
ZnO-Al2O3
5%
ZnO-ZrO2
5%
Hansen Solubility
5%
Atom Transfer Radical Polymerization
5%
Hollow Cathode Plasma
5%
Reactive Functional Groups
5%