"Alkynoate" Example Sentences
1. The synthesis of alkynoates requires careful planning and execution.
2. Alkynoates are versatile intermediates in organic synthesis.
3. The reactivity of alkynoates can be influenced by neighboring functional groups.
4. The solubility of alkynoates in common solvents can vary.
5. Alkynoates can undergo various types of reactions, such as addition and substitution.
6. The acidity of alkynoates can be affected by the type of substituent on the triple bond.
7. The use of alkynoates in cross-coupling reactions has become increasingly popular.
8. The enantioselective synthesis of alkynoates remains a challenge in organic chemistry.
9. Alkynoates can participate in cationic, radical, and metal-catalyzed reactions.
10. The vibrational spectra of alkynoates can provide valuable information about their structure.
11. Alkynoates are precursores to important classes of compounds, such as amino acids and peptides.
12. The stability of alkynoates can depend on the electronic properties of the substituents.
13. Alkynoates can be synthesized from various starting materials, such as aldehydes and ketones.
14. The use of alkynoates in click chemistry has spawned a number of applications in materials science.
15. The formation of alkynoates can involve both stoichiometric and catalytic methods.
16. Alkynoates can be used as building blocks in natural product synthesis.
17. The regioselectivity of alkynoate reactions can be controlled by choice of reagents.
18. Alkynoates can be classified based on the nature of the substituent on the triple bond.
19. The saponification of alkynoates can provide access to important carboxylic acids.
20. The use of alkynoates in bioorthogonal chemistry has revolutionized the field of chemical biology.
21. Alkynoates can be employed as probes for studying enzyme mechanisms.
22. The use of alkynoates in heterocycle synthesis has gained popularity in recent years.
23. Alkynoates can exhibit interesting physical and chemical properties, such as fluorescence and photoisomerization.
24. The development of efficient methods for alkynoate synthesis is an ongoing area of research.
25. Alkynoates can be used to prepare both cyclic and acyclic molecules.
26. The introduction of alkynoates to biomolecules can alter their function and stability.
27. Alkynoates can be used in tandem reactions to access complex frameworks.
28. The use of alkynoates in ligand design has led to new catalysts and complexes.
29. Alkynoates can serve as precursors to metal complexes with interesting spectroscopic properties.
30. The reaction of alkynoates with nucleophiles can lead to a variety of products.
Common Phases
1. Synthesizing
alkynoates requires careful control of temperature and pressure;
2. The reaction of alkynes with carboxylic acids produces
alkynoates as the main product;
3.
Alkynoates are versatile building blocks in organic synthesis;
4. The presence of an electron-withdrawing group on the alkyne portion of an
alkynoate increases its reactivity;
5. Treatment of
alkynoates with strong bases leads to formation of acetylenic compounds.