Monomerisations example sentences

"Monomerisations" Example Sentences

1. The process of monomerisations is crucial in polymer chemistry.
2. Monomerisations occur when single units of molecules join together to form polymers.
3. The reaction of monomerisations requires the presence of a catalyst.
4. The monomerisations of ethylene into polyethylene is a widely used process.
5. The rate of monomerisations can be controlled by altering the temperature and pressure of the system.
6. The mechanism of monomerisations can be studied through various computational techniques.
7. The monomerisations of acrylate monomers is used in the production of adhesives and coatings.
8. The success of monomerisations reaction is often dependent on the purity and quality of the starting materials.
9. Monomerisations can be initiated by a number of different methods, including thermal, photochemical, and radiation-induced initiation.
10. The ultimate goal of monomerisations is to produce a long chain polymer that has the desired properties for its intended use.
11. The mechanism of monomerisations can be influenced by small changes in the reaction conditions.
12. Monomerisations are often carried out in the presence of a solvent to aid in the formation of the polymer.
13. The discovery of new catalysts has led to advances in the field of monomerisations and the production of new polymers.
14. Monomerisations play a critical role in the development of new materials for a wide range of applications, from biomedical devices to electronics.
15. The kinetics of monomerisations can be modeled using a variety of mathematical techniques.
16. The size and shape of the resulting polymer can be controlled by varying the conditions and reactants used in the monomerisations process.
17. The yield of monomerisations is often affected by the presence of impurities in the reaction mixture.
18. The efficiency of monomerisations can be improved through the use of new synthetic methods and reaction conditions.
19. Monomerisations can occur through a number of different reaction pathways, depending on the structure of the monomer and the conditions of the reaction.
20. The success of monomerisations reactions is often dependent on the ability to remove byproducts and impurities from the system.
21. The degree of branching and crosslinking in the resulting polymer can be controlled through the use of different monomers and reaction conditions during monomerisations.
22. The mechanism of monomerisations is highly dependent on the type of polymerization reaction that is being carried out.
23. The development of new techniques for monomerisations has led to the creation of new materials with unique properties and applications.
24. The use of living polymerization techniques has revolutionized the field of monomerisations and led to the production of highly controlled and structured polymers.
25. The monomerisations of different monomers can be combined to produce polymers with unique properties and applications.
26. The use of new analytical techniques has allowed researchers to better understand the mechanism of monomerisations reactions.
27. The kinetics of monomerisations can be tuned by adjusting the reaction conditions, such as temperature and pressure.
28. The use of high-throughput screening techniques has accelerated the discovery of new catalysts and monomerisations methods.
29. The development of sustainable and environmentally friendly monomerisations methods is an important goal for the future of the field.
30. The study of monomerisations is a highly interdisciplinary field that draws on principles from chemistry, physics, and materials science.

Common Phases

1. The process of monomerisation involves breaking down larger molecules into smaller monomers;
2. Monomerisation is an essential step in polymer synthesis;
3. Monomerisations are often catalyzed by various compounds or catalysts;
4. The specificity of the monomerisation reaction determines the shape and properties of the resulting polymer;
5. Monomerisations are often carried out under controlled conditions to optimize the outcome of the reaction;
6. Monomerisation is a key step in the production of many important polymers used in industry.