100 Examples of sentences containing the common noun "iodide"

Definition

"Iodide" is a noun that refers to a binary compound of iodine with another element or group, particularly in which iodine has a -1 oxidation state. Iodides are typically salts formed from hydroiodic acid and can be found in various chemical forms, often used in medical, industrial, or nutritional applications.

Synonyms

• Iodine anion
• Iodine salt
• Iodine compound

Antonyms

• Iodate
• Iodine (elemental form)

Examples

1. The solution was tested to confirm the presence of iodide.
2. Patients were given a supplement that contained iodide for thyroid health.
3. The lab analyzed the samples for various iodide concentrations.
4. The researcher used iodide in the experiment to trace the reaction.
5. In marine environments, iodide plays a significant role in nutrient cycling.
6. The chemist synthesized a new compound that included iodide.
7. The dietary guidelines recommend a certain amount of iodide intake.
8. The plant's leaves were rich in iodide due to the soil composition.
9. They measured the iodide levels in the water sample.
10. Iodide can be found in table salt that has been iodized.
11. The doctor prescribed potassium iodide for the patient.
12. The study focused on the effects of iodide deficiency.
13. Researchers discovered that the iodide ion had unique properties.
14. The safety data sheet listed iodide as a hazardous chemical.
15. The nutritionist explained the importance of iodide for metabolism.
16. The water purification system removed excess iodide.
17. The scientists were excited to explore the iodide chemistry further.
18. They concluded that iodide exposure was minimal in the study.
19. The team aimed to increase the iodide concentration in the samples.
20. The findings suggested a link between iodide levels and thyroid disorders.
21. The iodide was used as a catalyst in the reaction.
22. The environmental analysis showed high iodide levels in coastal areas.
23. The laboratory routinely checks for iodide contamination.
24. The iodide solution was prepared for titration.
25. The biochemist noted the unusual behavior of iodide in certain conditions.
26. The experiment required precise measurements of iodide.
27. The nutritional drink was fortified with iodide.
28. The iodide ion is essential for the production of thyroid hormones.
29. The isotopes of iodide were studied for their radioactive properties.
30. The agricultural practices included adding iodide to the soil.
31. The iodide crystals formed during the cooling process.
32. The researchers observed how iodide reacted with other elements.
33. The compound contained both iodide and bromide ions.
34. The presence of iodide was confirmed by spectroscopy.
35. The iodide levels were monitored throughout the study.
36. The iodide was extracted from natural sources.
37. The experiment demonstrated the stability of the iodide compound.
38. The presence of iodide can influence biological processes.
39. The team published their findings on iodide interactions.
40. The iodide ion is negatively charged in solution.
41. The dietary supplement provided a safe amount of iodide.
42. The iodide concentration was analyzed using chromatography.
43. The study highlighted the role of iodide in human health.
44. The iodide compound was stable under normal conditions.
45. The pharmaceutical industry relies on iodide for drug development.
46. The iodide was tested for its antimicrobial properties.
47. The researchers isolated the iodide from the reaction mixture.
48. The lab equipment was calibrated to measure iodide accurately.
49. The iodide levels in the food supply were assessed.
50. The geology team studied the occurrence of iodide in minerals.
51. The environmental impact of iodide pollution was significant.
52. The iodide ion plays a crucial role in organic synthesis.
53. The iodide solution had to be handled with care.
54. The dietary intake of iodide varies by region.
55. The iodide reaction was exothermic.
56. The iodide was applied as a treatment for infections.
57. The iodide salt was used to preserve food.
58. The study aimed to correlate iodide levels with health outcomes.
59. The iodide was absorbed rapidly in the digestive system.
60. The iodide compound exhibited unique optical properties.
61. The researchers noted how iodide ions migrated in the solution.
62. The iodide crystals were formed through evaporation.
63. The iodide levels in the atmosphere were monitored.
64. They explored the potential uses of iodide in agriculture.
65. The iodide was analyzed using mass spectrometry.
66. The findings suggested a protective role of iodide against certain diseases.
67. The iodide was involved in the chemical reaction mechanism.
68. The nutritional study included data on iodide consumption.
69. The iodide was used as a tracer in environmental studies.
70. The iodide content in the sample was above the recommended levels.
71. The iodide solution was stored in a dark container to prevent degradation.
72. The iodide levels were affected by seasonal changes.
73. The iodide compound was used in imaging tests.
74. The environmental report included data on iodide pollution.
75. The iodide was synthesized in the laboratory for experimentation.
76. The iodide was incorporated into the new formula.
77. The iodide concentration was critical for the experiment's success.
78. The iodide research contributed to our understanding of halogens.
79. The iodide solution was neutralized before disposal.
80. The iodide was shown to have anti-inflammatory effects.
81. The iodide was used in various industrial applications.
82. The iodide levels were indicative of dietary habits.
83. The study revealed how iodide interacts with other halogens.
84. The iodide was vital for the production of certain chemicals.
85. The iodide was tested for stability under various conditions.
86. The iodide supplementation improved the patient's condition.
87. The iodide was used in the synthesis of pharmaceutical compounds.
88. The team conducted experiments to observe the behavior of iodide.
89. The report detailed the benefits of adequate iodide intake.
90. The iodide salt was carefully measured for accuracy.
91. The iodide concentration was a key variable in the study.
92. The iodide was examined under a microscope for purity.
93. The iodide levels fluctuated based on dietary intake.
94. The iodide compounds were safely disposed of after the experiment.
95. The iodide was delivered to the lab for analysis.
96. The iodide was essential for proper thyroid function.
97. The iodide was used to enhance the quality of the product.
98. The iodide was identified as a significant contributor to the results.
99. The iodide was stored in a cool, dry place to maintain stability.
100. The iodide findings were published in a reputable journal.