Keyphrases
Diols
100%
Aromatics
100%
Biodegradable Polyesters
100%
Bioproducts
100%
Biodegradability
100%
Biodegradable Copolyester
100%
Aliphatic Diols
100%
Barrier Properties
100%
Enzymatic Degradation
100%
Acid Effect
100%
2,5-thiophenedicarboxylic Acid
100%
Mechanical Properties
50%
High Thermal Stability
50%
Sustainable Development
50%
Experimental Parameters
50%
Surface Morphology
50%
Thermal Properties
50%
Carbonyl
50%
Degradation Behavior
50%
High Tensile Strength
50%
Degradation Mechanism
50%
Molecular Dynamics Simulation
50%
Computational Analysis
50%
Structure-property Relationships
50%
Chain Structure
50%
Bio-derived
50%
Molecular Composition
50%
Random Copolyesters
50%
Adipate
50%
Gas Barrier Performance
50%
Copolyester
50%
Polybutylene Terephthalate
50%
Melt Polycondensation
50%
Degradation Experiment
50%
Nucleophilic Attack
50%
Diacids
50%
Pre-reaction
50%
Sterically Hindered
50%
Enzyme Complex
50%
Weight-average Molecular Weight
50%
Bio-based Copolyesters
50%
Intrinsic Viscosity
50%
Chemistry
Diol
100%
Biodegradability
66%
Carbon Dioxide
33%
Thermal Stability
33%
Polycondensation
33%
Phase Composition
33%
Molecular Dynamics
33%
Butene
33%
Mass Average Molar Mass
33%
Intrinsic Viscosity
33%
Tensile Strength
33%
Material Science
Polyester
100%
Ultimate Tensile Strength
50%
Carbon Dioxide
50%
Thermal Stability
50%
Surface Morphology
50%
Polycondensation
50%
Intrinsic Viscosity
50%
Chemical Engineering
Polycondensation
100%
Butene
100%