"Aromaticity" Example Sentences
1. The compound's aromaticity was confirmed by its unusual stability.
2. Benzene's aromaticity is attributed to its delocalized electron system.
3. The degree of aromaticity in a molecule can be determined through Hückel's rule.
4. The aromaticity of furan makes it useful in organic synthesis.
5. This compound doesn't display aromaticity due to the presence of significant torsional strain.
6. The mesomeric effect is a key factor in stabilizing the aromaticity of a molecule.
7. The π electrons in an aromatic compound are delocalized over the entire ring system, contributing to its aromaticity.
8. The resulting ring structure exhibited unexpected aromaticity, which was confirmed through various spectroscopic techniques.
9. The complex interplay between steric and electronic factors determines the degree of aromaticity in a molecule.
10. A molecule is considered aromatic if it meets all of the criteria for aromaticity, including planarity, cyclic structure, and delocalization of π electrons.
11. Aromaticity plays a major role in many key biochemical processes, including photosynthesis and respiration.
12. The concept of aromaticity has deep roots in the history of organic chemistry, dating back to the days of Friedrich August Kekulé.
13. The unique electronic properties of aromatic compounds have led to their widespread use in materials science applications.
14. The presence of a substituent on an aromatic ring can strongly influence the molecule's degree of aromaticity.
15. One strategy for promoting greater aromaticity in a molecule is to add electron-withdrawing groups to the ring system.
16. The use of computational chemistry methods has greatly enhanced our ability to predict and understand the behavior of aromatic compounds.
17. Aromaticity is closely related to the concept of resonance, as both involve the sharing of electrons over multiple atoms.
18. The extent of aromaticity in a molecule can affect its reactivity, stability, and physical properties.
19. The facile synthesis of aromatic compounds is a major focus of many organic chemistry research programs.
20. The structural characteristics that define aromaticity are critical for the design of various drugs and pharmaceuticals.
21. The ability to design and synthesize novel aromatic compounds with tailored properties has wide-ranging implications for fields such as organic electronics and materials science.
22. Aromaticity is a fascinating area of study, with many unanswered questions and opportunities for further research.
23. The discovery of new ways to control and manipulate the aromaticity of molecules holds great promise for advancing chemical synthesis and catalysis.
24. Aromaticity can have profound effects on the behavior of complex reaction systems, such as those involved in biological signaling pathways.
25. The careful study of aromaticity in natural products has led to numerous insights into the workings of biological systems.
26. The formation of π conjugated systems is a crucial first step towards achieving aromaticity in many organic compounds.
27. The effects of heteroatoms on aromaticity can be complex, with different atoms exerting different effects on the π electron system.
28. The understanding and manipulation of aromaticity is a key challenge in the field of quantum chemistry.
29. The chemistry of aromatic compounds has profound implications for the development of new materials with unique electronic, optical, and magnetic properties.
30. Aromaticity is a fascinating and challenging area of study that plays a central role in modern organic chemistry and materials science.
Common Phases
1.
Aromaticity is a property of certain compounds;
2. It is characterized by a ring of atoms with alternating double bonds;
3. This arrangement produces an unusually stable molecule;
4. Aromatic compounds are commonly found in essential oils and fragrances;
5. They also play a crucial role in biochemistry;
6. Aromatic molecules are often used in the synthesis of drugs and materials;
7. The study of
aromaticity has led to significant advances in chemical theory;
8. Understanding the properties of aromatic compounds is essential for designing new technologies.