100 Examples of sentences containing the adjective "quinquevalent"

Definition

The adjective quinquevalent refers to a chemical species that has a valency of five, meaning it can form five bonds with other atoms. This term is often used in the context of chemistry, particularly in describing certain elements or compounds.

Synonyms

• Pentavalent
• Penta- (as a prefix)
• Five-valent

Antonyms

• Monovalent
• Divalent
• Trivalent
• Tetravalent

Examples

1. The quinquevalent nature of phosphorus allows it to form multiple compounds.
2. In organic chemistry, a quinquevalent atom can be crucial for the structure of complex molecules.
3. The quinquevalent state of certain metals can influence their reactivity.
4. Scientists studied the quinquevalent bonds in the compound to understand its properties.
5. Researchers found that the quinquevalent ions had unique electrical properties.
6. The quinquevalent configuration of the ligand was essential for the reaction.
7. In the context of coordination chemistry, quinquevalent complexes are of particular interest.
8. The quinquevalent character of the element was confirmed through various experiments.
9. Understanding the quinquevalent nature of the molecule led to new insights in material science.
10. The study of quinquevalent compounds can help in developing new catalysts.
11. The quinquevalent nature of arsenic is an important factor in its toxicity.
12. Many quinquevalent compounds exhibit interesting optical properties.
13. The researchers synthesized a quinquevalent complex for their experiments.
14. A quinquevalent configuration can lead to unexpected reactivity in chemical reactions.
15. The quinquevalent state of the catalyst enhanced the reaction rate significantly.
16. Experts noted that the quinquevalent form of the metal was more stable than its trivalent counterpart.
17. The quinquevalent architecture of the molecule provided unique structural features.
18. Chemists often encounter quinquevalent elements in their studies of inorganic compounds.
19. The stability of quinquevalent ions is a crucial aspect of their function in biological systems.
20. The quinquevalent nature of the compound was highlighted in the latest research publication.
21. In synthesis, controlling the quinquevalent character of the reactants was necessary for success.
22. The quinquevalent configuration requires specific conditions to maintain stability.
23. Understanding quinquevalent bonding can lead to advancements in drug design.
24. The team focused on the quinquevalent properties of the new material.
25. The quinquevalent state was linked to increased conductivity in the experiments.
26. The quinquevalent structure was confirmed through X-ray crystallography.
27. The chemical behavior of quinquevalent compounds is vastly different from that of their lower-valency counterparts.
28. The researchers were fascinated by the quinquevalent interactions observed in their studies.
29. A quinquevalent molecule often demonstrates unique reactivity patterns.
30. The emphasis on quinquevalent species in the literature is growing.
31. The quinquevalent nature of the element is exploited in various industrial applications.
32. The team developed a model to predict the behavior of quinquevalent compounds.
33. The quinquevalent ion played a key role in the catalytic process.
34. The study of quinquevalent species provides insights into fundamental chemical principles.
35. The quinquevalent nature of the ligand significantly affects the coordination chemistry.
36. A quinquevalent approach to the problem yielded interesting results.
37. The characterization of quinquevalent complexes is essential for understanding their applications.
38. The presence of quinquevalent elements in the compound was a breakthrough in the research.
39. The quinquevalent nature of the substance posed challenges for its synthesis.
40. Quinquevalent coordination complexes often demonstrate unique electronic properties.
41. The researchers focused on the quinquevalent state of the transition metal.
42. The stability of quinquevalent ions is a topic of ongoing research.
43. The quinquevalent nature of the compound made it suitable for various applications.
44. The reaction involving quinquevalent species was carefully monitored.
45. The quinquevalent architecture allowed for diverse functionalization.
46. The potential of quinquevalent chemistry in drug discovery is immense.
47. The interaction between quinquevalent ions and ligands is complex and fascinating.
48. The quinquevalent state of the atom was crucial for the reaction mechanism.
49. Quinquevalent compounds often show distinct physical properties.
50. The quinquevalent nature of the reactants was a key focus of the experiment.
51. The balance of quinquevalent bonds in the molecule contributed to its stability.
52. The quinquevalent character of the compound was analyzed using spectroscopy.
53. The application of quinquevalent chemistry in materials science is promising.
54. The quinquevalent form of the molecule is particularly reactive under certain conditions.
55. The synthesis of quinquevalent species requires precise control over reaction conditions.
56. The unique properties of quinquevalent compounds are being explored for new technologies.
57. The quinquevalent configuration in the compound was essential for its function.
58. The role of quinquevalent ions in biological systems is an area of active research.
59. The quinquevalent state can lead to interesting interactions with other molecules.
60. The team discovered a new quinquevalent complex during their experiments.
61. The quinquevalent nature of the catalyst was vital for the reaction's success.
62. The chemistry of quinquevalent elements is rich and varied.
63. The presence of quinquevalent bonds can alter the reactivity of a compound.
64. The quinquevalent state is often explored in the context of coordination compounds.
65. The properties of quinquevalent species can vary widely depending on their environment.
66. The researchers investigated the quinquevalent aspects of the chemical reaction.
67. The quinquevalent nature of the ligand improved the stability of the complex.
68. The quinquevalent character of the compound was determined through various analytical methods.
69. The study of quinquevalent interactions has implications for material design.
70. The quinquevalent ion was instrumental in catalyzing the reaction.
71. The unique features of quinquevalent compounds make them valuable in research.
72. The quinquevalent state of the element allows for diverse bonding possibilities.
73. A better understanding of quinquevalent species can lead to innovative applications.
74. The stability of quinquevalent ions is critical in many chemical processes.
75. The quinquevalent structure was essential for the desired outcome of the reaction.
76. The team published new findings on quinquevalent compounds in a leading journal.
77. The quinquevalent nature of the substance was revealed through extensive testing.
78. The behavior of quinquevalent ions can be unpredictable under certain conditions.
79. The quinquevalent configuration of the complex was carefully assessed.
80. The significance of quinquevalent chemistry in biochemistry is increasingly recognized.
81. The unique reactivity of quinquevalent compounds is a topic of interest for chemists.
82. The quinquevalent properties of the material were highlighted in the study.
83. The formation of quinquevalent complexes requires specific conditions to be met.
84. The quinquevalent nature of the catalyst was crucial for its efficiency.
85. The interaction between quinquevalent ions and substrates is complex.
86. The researchers focused on the quinquevalent aspects of the reaction mechanism.
87. The study on quinquevalent species contributed significantly to the field.
88. The quinquevalent state of the compound indicated its potential applications.
89. The quinquevalent nature of the element is well-documented in the literature.
90. Understanding quinquevalent bonding can aid in the design of new drugs.
91. The quinquevalent configuration is a focus in modern coordination chemistry.
92. The quinquevalent ion demonstrated unique characteristics in the experiment.
93. The properties of quinquevalent compounds can be harnessed for various technologies.
94. The quinquevalent nature of the compound was a significant finding of the research.
95. The reactivity of quinquevalent species is an area of ongoing exploration.
96. The quinquevalent state can lead to a variety of chemical behaviors.
97. The study of quinquevalent interactions is essential for understanding complex chemistry.
98. The quinquevalent architecture allows for innovative approaches in material synthesis.
99. The potential of quinquevalent compounds in catalytic applications is vast.
100. The quinquevalent nature of the substance was a key factor in its development.