Monotertbutyl example sentences

"Monotertbutyl" Example Sentences

1. The synthesis involved a crucial step using monotertbutyl ether as a protecting group.
2. Monotertbutyl groups are often found in organic chemistry.
3. Researchers are exploring new applications of monotertbutyl derivatives.
4. The reaction yielded a surprising amount of monotertbutyl-substituted product.
5. Analysis revealed the presence of a monotertbutyl moiety in the molecule.
6. Protecting the alcohol with a monotertbutyl dimethylsilyl group proved effective.
7. The stability of the monotertbutyl group under acidic conditions is noteworthy.
8. Monotertbutyl esters are frequently used in peptide synthesis.
9. We observed significant steric hindrance due to the bulky monotertbutyl substituent.
10. The monotertbutyl protecting group was easily removed.
11. A novel monotertbutyl-containing compound was synthesized.
12. The spectroscopic data confirmed the presence of the monotertbutyl group.
13. Further research is needed to understand the reactivity of monotertbutyl halides.
14. Unexpectedly, the monotertbutyl group remained intact.
15. The introduction of a monotertbutyl group enhanced the compound's solubility.
16. This method provides a high yield of the desired monotertbutyl derivative.
17. The monotertbutyl group significantly impacted the molecule's conformation.
18. Several monotertbutyl-protected intermediates were isolated.
19. The chiral center bearing the monotertbutyl group influenced stereoselectivity.
20. Removal of the monotertbutyl group required strong acid conditions.
21. The synthesis of this compound utilizes a monotertbutyl-based protecting strategy.
22. The article discusses the application of monotertbutyl groups in organic synthesis.
23. We hypothesize that the monotertbutyl group plays a crucial role in catalysis.
24. The bulky monotertbutyl group hindered nucleophilic attack.
25. Monotertbutyl lithium is a strong base frequently employed in organic reactions.
26. It was crucial to carefully control the reaction temperature when using monotertbutyl reagents.
27. The monotertbutyl group provided the required steric protection.
28. The reaction proceeded smoothly despite the presence of a monotertbutyl group.
29. The presence of a monotertbutyl group was evident from NMR analysis.
30. The use of monotertbutyl groups simplifies purification.
31. A significant advantage of using monotertbutyl protecting groups is their stability.
32. The monotertbutyl group's large size influences reaction kinetics.
33. Efficient removal of the monotertbutyl group is essential.
34. Many commercially available reagents contain monotertbutyl groups.
35. The design of the molecule incorporates a strategically placed monotertbutyl group.
36. This new approach provides a better way to introduce a monotertbutyl group.
37. Monotertbutyl groups can be added selectively.
38. Unexpected degradation of the monotertbutyl group was observed under these conditions.
39. The improved yield is attributed to the incorporation of a monotertbutyl group.
40. We investigated the impact of the monotertbutyl group on the compound's biological activity.
41. The use of a monotertbutyl protecting group simplified the purification process.
42. Computational studies predicted the stability of the monotertbutyl group under these conditions.
43. The synthesis requires careful handling of the highly reactive monotertbutyl reagent.
44. The monotertbutyl group acted as a steric shield.
45. The reaction failed due to the unexpected instability of the monotertbutyl group.
46. Optimizing the conditions for monotertbutyl group removal is a critical step.
47. The choice of a monotertbutyl protecting group was based on its stability.
48. The final product contained only one monotertbutyl group.
49. This study explores the potential of using monotertbutyl as a functional group.
50. The synthesis of monotertbutyl-substituted derivatives is well-established.