Keyphrases
Polylactic Acid
100%
Cutinase
100%
Superhydrophobic
100%
Ketene Dimer
75%
Alkenes
75%
Hydroxy Group
50%
Polylactic Acid Film
50%
Superhydrophobic Surface
50%
Fractal Structure
50%
Water Contact Angle
50%
Curation
25%
High Density
25%
Scanning Electron Microscopy
25%
Microfluidics
25%
Biomedical Field
25%
Atomic Force Microscopy
25%
Hydrophilicity
25%
Hydrophilic Surface
25%
Biodegradable Polyesters
25%
Toxic Chemicals
25%
Exposed Area
25%
Reaction Products
25%
Surface Roughness
25%
Spin Coating
25%
Polymer Surface
25%
Environmentally Friendly
25%
Bulk Properties
25%
Atomic Force Microscopy Imaging
25%
Alkaline Treatment
25%
Successful Coupling
25%
Lateral Dimension
25%
LC-TOF-MS
25%
Surface Groups
25%
Selective Enzymatic Hydrolysis
25%
Superhydrophobic Materials
25%
Polyester Film
25%
Low Surface Energy
25%
Surface Water Contact Angle
25%
Biocatalytic
25%
β-ketoesters
25%
Carboxylic Group
25%
Engineering
Water Contact Angle
100%
Alkene
100%
Cutinase
100%
Nanoscale
33%
Microscale
33%
Atomic Force Microscopy
33%
Polymer Surface
33%
Biomedical Field
33%
Bulk Property
33%
Hydrophilic Surface
33%
Surface Group
33%
Alkaline Treatment
33%
Surface Water
33%
Enzymatic Hydrolysis
33%
Hydrophilicity
33%
Bioinstrumentation
33%
Interfacial Energy
33%
INIS
surfaces
100%
lactic acid
100%
films
33%
dimers
33%
ketenes
33%
alkenes
33%
coupling
22%
water
22%
roughness
22%
polyesters
22%
fractals
22%
detection
11%
values
11%
applications
11%
increasing
11%
size
11%
density
11%
spectra
11%
height
11%
toxicity
11%
peaks
11%
layers
11%
dimensions
11%
substrates
11%
polymers
11%
scanning electron microscopy
11%
coatings
11%
nanostructures
11%
surface energy
11%
surface waters
11%
atomic force microscopy
11%
spin-on coating
11%
enzymatic hydrolysis
11%
Material Science
Polylactide
100%
Superhydrophobic
100%
Surface (Surface Science)
100%
Film
33%
Contact Angle
33%
Polyester
22%
Density
11%
Scanning Electron Microscopy
11%
Time-of-Flight Mass Spectrometry
11%
Surface Roughness
11%
Spin Coating
11%
Surface Energy
11%
Enzymatic Hydrolysis
11%