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punct precis tigru woodard l.n grunlan m.a acs macro lett 2018 7 976 sfat Dincolo Explicit

Amino Acid-Based Polyphosphorodiamidates with Hydrolytically Labile Bonds  for Degradation-Tuned Photopolymers | ACS Macro Letters
Amino Acid-Based Polyphosphorodiamidates with Hydrolytically Labile Bonds for Degradation-Tuned Photopolymers | ACS Macro Letters

ChemEngineering | Free Full-Text | Polycaprolactone Composites/Blends and  Their Applications Especially in Water Treatment
ChemEngineering | Free Full-Text | Polycaprolactone Composites/Blends and Their Applications Especially in Water Treatment

Versatile Preparation of Branched Polylactides by Low-Temperature,  Organocatalytic Ring-Opening Polymerization in N-Methylpyrrolidone and  Their Surface Degradation Behavior | Macromolecules
Versatile Preparation of Branched Polylactides by Low-Temperature, Organocatalytic Ring-Opening Polymerization in N-Methylpyrrolidone and Their Surface Degradation Behavior | Macromolecules

Readily Degradable Aromatic Polyesters from Salicylic Acid | ACS Macro  Letters
Readily Degradable Aromatic Polyesters from Salicylic Acid | ACS Macro Letters

A High Performance Copolyester with “Locked” Biodegradability: Solid  Stability and Controlled Degradation Enabled by Acid-Labile Acetal | ACS  Sustainable Chemistry & Engineering
A High Performance Copolyester with “Locked” Biodegradability: Solid Stability and Controlled Degradation Enabled by Acid-Labile Acetal | ACS Sustainable Chemistry & Engineering

Harnessing the power of polyol-based polyesters for biomedical innovations:  synthesis, properties, and biodegradation - Journal of Materials Chemistry  B (RSC Publishing) DOI:10.1039/D3TB01186K
Harnessing the power of polyol-based polyesters for biomedical innovations: synthesis, properties, and biodegradation - Journal of Materials Chemistry B (RSC Publishing) DOI:10.1039/D3TB01186K

Hydrolytic Degradation and Erosion of Polyester Biomaterials | ACS Macro  Letters
Hydrolytic Degradation and Erosion of Polyester Biomaterials | ACS Macro Letters

Materials | Free Full-Text | Experimental Analysis of the Enzymatic  Degradation of Polycaprolactone: Microcrystalline Cellulose Composites and  Numerical Method for the Prediction of the Degraded Geometry
Materials | Free Full-Text | Experimental Analysis of the Enzymatic Degradation of Polycaprolactone: Microcrystalline Cellulose Composites and Numerical Method for the Prediction of the Degraded Geometry

Hydrolytic Degradation and Erosion of Polyester Biomaterials | ACS Macro  Letters
Hydrolytic Degradation and Erosion of Polyester Biomaterials | ACS Macro Letters

Polymer Colloids: Current Challenges, Emerging Applications, and New  Developments | Macromolecules
Polymer Colloids: Current Challenges, Emerging Applications, and New Developments | Macromolecules

Amino Acid-Based Polyphosphorodiamidates with Hydrolytically Labile Bonds  for Degradation-Tuned Photopolymers | ACS Macro Letters
Amino Acid-Based Polyphosphorodiamidates with Hydrolytically Labile Bonds for Degradation-Tuned Photopolymers | ACS Macro Letters

Textiles | Free Full-Text | Evaluating the Potential of Polylactide  Nonwovens as Bio-Based Media for Air Filtration
Textiles | Free Full-Text | Evaluating the Potential of Polylactide Nonwovens as Bio-Based Media for Air Filtration

Amino Acid-Based Polyphosphorodiamidates with Hydrolytically Labile Bonds  for Degradation-Tuned Photopolymers | ACS Macro Letters
Amino Acid-Based Polyphosphorodiamidates with Hydrolytically Labile Bonds for Degradation-Tuned Photopolymers | ACS Macro Letters

Defining the Macromolecules of Tomorrow through Synergistic Sustainable  Polymer Research | Chemical Reviews
Defining the Macromolecules of Tomorrow through Synergistic Sustainable Polymer Research | Chemical Reviews

Hydrolytic Degradation and Erosion of Polyester Biomaterials | ACS Macro  Letters
Hydrolytic Degradation and Erosion of Polyester Biomaterials | ACS Macro Letters

Degradation of hybrid material l , d -PLA:5CB:SWCN under the influence of  neutral, acidic, and alkaline environments - RSC Advances (RSC Publishing)  DOI:10.1039/D2RA05350K
Degradation of hybrid material l , d -PLA:5CB:SWCN under the influence of neutral, acidic, and alkaline environments - RSC Advances (RSC Publishing) DOI:10.1039/D2RA05350K

Hydrolytic Degradation and Erosion of Polyester Biomaterials | ACS Macro  Letters
Hydrolytic Degradation and Erosion of Polyester Biomaterials | ACS Macro Letters

Amino Acid-Based Polyphosphorodiamidates with Hydrolytically Labile Bonds  for Degradation-Tuned Photopolymers | ACS Macro Letters
Amino Acid-Based Polyphosphorodiamidates with Hydrolytically Labile Bonds for Degradation-Tuned Photopolymers | ACS Macro Letters

Amino Acid-Based Polyphosphorodiamidates with Hydrolytically Labile Bonds  for Degradation-Tuned Photopolymers | ACS Macro Letters
Amino Acid-Based Polyphosphorodiamidates with Hydrolytically Labile Bonds for Degradation-Tuned Photopolymers | ACS Macro Letters

Biodegradable elastomeric circuit boards from citric acid-based polyesters  | npj Flexible Electronics
Biodegradable elastomeric circuit boards from citric acid-based polyesters | npj Flexible Electronics

Hydrolytic Degradation and Erosion of Polyester Biomaterials | ACS Macro  Letters
Hydrolytic Degradation and Erosion of Polyester Biomaterials | ACS Macro Letters

Readily Degradable Aromatic Polyesters from Salicylic Acid | ACS Macro  Letters
Readily Degradable Aromatic Polyesters from Salicylic Acid | ACS Macro Letters

Polymers | Free Full-Text | Biodegradability Assessment of Polyester  Copolymers Based on Poly(ethylene adipate) and Poly(ε-caprolactone)
Polymers | Free Full-Text | Biodegradability Assessment of Polyester Copolymers Based on Poly(ethylene adipate) and Poly(ε-caprolactone)

Polymers | Free Full-Text | The Use of Branching Agents in the Synthesis of  PBAT
Polymers | Free Full-Text | The Use of Branching Agents in the Synthesis of PBAT

Amino Acid-Based Polyphosphorodiamidates with Hydrolytically Labile Bonds  for Degradation-Tuned Photopolymers | ACS Macro Letters
Amino Acid-Based Polyphosphorodiamidates with Hydrolytically Labile Bonds for Degradation-Tuned Photopolymers | ACS Macro Letters