Andere Kunden interessierten sich auch für
![Degradable Aliphatic Polyesters]( "Degradable Aliphatic Polyesters")
Degradable Aliphatic Polyesters154,99 €![Ordering in Macromolecular Systems]( "Ordering in Macromolecular Systems")
Ordering in Macromolecular Systems37,99 €![Scanning Force Microscopy of Polymers]( "Scanning Force Microscopy of Polymers")
Scanning Force Microscopy of Polymers82,99 €![Viscoelasticity Atomistic Models Statistical Chemistry]( "Viscoelasticity Atomistic Models Statistical Chemistry")
Viscoelasticity Atomistic Models Statistical Chemistry154,99 €![New Developments in Polymer Analytics I]( "New Developments in Polymer Analytics I")
New Developments in Polymer Analytics I154,99 €![Radiation Effects on Polymers for Biological Use]( "Radiation Effects on Polymers for Biological Use")
Radiation Effects on Polymers for Biological Use154,99 €![Blockcopolymers, Polyelectrolytes, Biodegradation]( "Blockcopolymers, Polyelectrolytes, Biodegradation")
Blockcopolymers, Polyelectrolytes, Biodegradation154,99 €
A renewed interest in aliphatic polyesters has resulted in developing materials important in the biomedical and ecological fields. Mainly materials such as PLA and PCL homopolymers have so far been used in most applications. There are many other monomers which can be used. Different molecular structures give a wider range of physical properties as well as the possibility of regulating the degradation rate. By using different types of initiators and catalysts, ring-opening polymerization of lactones and lactides provides macromolecules with advanced molecular architectures. In the future, new degradable polymers should be able to participate in the metabolism of nature. Some examples of novel polymers with inherent environmentally favorable properties such as renewability and degradability and a series of interesting monomers found in the metabolisms and cycles of nature are given.