Technological watch
New Study on Polymers Could Improve Thermostability of Bioplastics
Written by AZoMJun 9 2020One of the key objectives for contemporary chemistry is to improve thermomechanical properties of polymers, in particular, thermostability of bioplastics.
In this paper, the team concentrated on researching oligomer and polymer materials with macrocyclic compounds characterized by enhanced thermostability. "Such products have lower vitrification temperatures, which makes them more malleable in comparison with commercial polylactic acid," says co-author, Research Associate Pavel Padnya.
Polycondensation products of lactic acid (poly- and oligolactides) are of great interest for targeted drug delivery and implant design. A width of the range of their applications is due to a number of practically important properties, such as biocompatibility and biodegradability, non-toxicity and mechanical strength.
Related Stories
"We've been working on this topic for five years thanks to Russian Science Foundation's funding. We have had some non-trivial results for biodegradable polymers," adds team leader, Professor Ivan Stoikov.
In the course of the study, new functional star-shaped polymers of lactic acid were obtained. Researchers chose macrocyclic compounds, thiacalixarenes, as the "crosslinking units" of polymer chains. An important result of this work is that the dependence of the structure of the obtained oligo- and polymer products on the synthesis temperature and the nature of the solvents used, as well as on the spatial structures selected for the "crosslinking" of chains of macrocyclic compounds, was established.
This development can have a significant impact on the use of polymers in medicine: it turned out that the obtained compounds have an affinity for a certain type of xanthene dyes - a means for medical diagnostics and the study of biochemical processes in cells.
In this paper, the team concentrated on researching oligomer and polymer materials with macrocyclic compounds characterized by enhanced thermostability. "Such products have lower vitrification temperatures, which makes them more malleable in comparison with commercial polylactic acid," says co-author, Research Associate Pavel Padnya.
Polycondensation products of lactic acid (poly- and oligolactides) are of great interest for targeted drug delivery and implant design. A width of the range of their applications is due to a number of practically important properties, such as biocompatibility and biodegradability, non-toxicity and mechanical strength.
Related Stories
- Application of HVOF Techniques for Spraying of Ceramic Coatings
- Conductive and Opto-Electrical Antimony Tin Oxide Coatings for Particulate Materials
- Structure Analysis Of 4-Octyl-4â??-Cyanobiphenyl Liquid-Crystalline Free-Standing Film By Molecular Dynamics Simulation
"We've been working on this topic for five years thanks to Russian Science Foundation's funding. We have had some non-trivial results for biodegradable polymers," adds team leader, Professor Ivan Stoikov.
In the course of the study, new functional star-shaped polymers of lactic acid were obtained. Researchers chose macrocyclic compounds, thiacalixarenes, as the "crosslinking units" of polymer chains. An important result of this work is that the dependence of the structure of the obtained oligo- and polymer products on the synthesis temperature and the nature of the solvents used, as well as on the spatial structures selected for the "crosslinking" of chains of macrocyclic compounds, was established.
This development can have a significant impact on the use of polymers in medicine: it turned out that the obtained compounds have an affinity for a certain type of xanthene dyes - a means for medical diagnostics and the study of biochemical processes in cells.
This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 870292.
