100 Examples of sentences containing the common noun "oxide"

Definition

"Oxide" is a noun that refers to a chemical compound consisting of at least one oxygen atom and one other element. Oxides are often formed when elements react with oxygen, resulting in a wide range of substances, including metals and nonmetals. They can be found in various forms, such as solid, liquid, or gas, and are significant in various fields, including chemistry, materials science, and environmental science.

Synonyms

• Oxygen compound
• Oxide compound

Antonyms

• None (as "oxide" refers specifically to a type of chemical compound)

Examples

1. The chemist mixed hydrogen with oxygen to create water, but she also noted the presence of oxide on the metal surface.
2. The rust that formed on the iron fence is an example of iron oxide.
3. In the laboratory, the researcher examined the properties of silicon oxide.
4. The reaction between aluminum and oxygen produced aluminum oxide.
5. Carbon oxide in the atmosphere can be harmful to health.
6. The team discovered that the oxide layer helped protect the metal from corrosion.
7. They used copper oxide in their experiment to test its conductivity.
8. The formation of lead oxide is crucial in battery technology.
9. The oxide emissions from the factory were monitored by environmental agencies.
10. Zinc oxide is commonly used in sunscreens for its protective properties.
11. The oxide compounds were analyzed for their reactivity.
12. The presence of titanium oxide gives the paint a bright white color.
13. Scientists are researching new ways to utilize iron oxide in nanotechnology.
14. The oxide crystals were carefully examined under a microscope.
15. The oxide layer must be removed before welding to ensure a strong bond.
16. The study focused on the role of nitrogen oxide in climate change.
17. She learned that certain oxide materials can act as semiconductors.
18. The formation of oxide films can lead to interesting optical properties.
19. The chemical reaction produced a significant amount of magnesium oxide.
20. The oxide found in the soil was essential for plant growth.
21. The researchers observed how the oxide affected the overall reaction rate.
22. Lead oxide is often used in the production of glass.
23. The oxide coatings improved the durability of the metal products.
24. Understanding the behavior of chromium oxide is crucial for industrial applications.
25. Many oxide minerals are important sources of metal ores.
26. The team reported their findings on the catalytic properties of copper oxide.
27. The presence of sulfur oxide in the atmosphere can lead to acid rain.
28. The oxide layers can be used in electronic devices for insulation.
29. The study revealed the toxic effects of nitrogen oxide on respiratory health.
30. The oxide was formed as a byproduct of the combustion process.
31. The chemistry class learned how to identify different types of oxide compounds.
32. The oxide present in the sample was determined to be stable.
33. The application of zinc oxide in ointments is common in dermatology.
34. Researchers synthesized a new type of oxide for use in batteries.
35. The oxide films can enhance the efficiency of solar panels.
36. The laboratory synthesized various metal oxides for testing.
37. The oxide in the coating provided excellent thermal resistance.
38. The environmental impact of carbon oxide is a major concern.
39. The oxide layers formed during the oxidation process were analyzed.
40. The oxide compounds varied in their chemical stability.
41. The oxide reactions were monitored over time to observe changes.
42. The team aimed to reduce the oxide emissions from their manufacturing process.
43. The oxide compound was used as a catalyst in the reaction.
44. The oxide content in the mineral sample was measured.
45. The oxide coating improved the adhesion of paint to the surface.
46. The oxide reduction process is a key step in metal extraction.
47. The team studied how temperature affects the formation of oxide layers.
48. The chemical properties of the oxide can change under different conditions.
49. The oxide was found to enhance the performance of the device.
50. Researchers are investigating the role of oxide nanoparticles in drug delivery.
51. The formation of titanium oxide is crucial in the production of ceramics.
52. The oxide powders were used in the manufacturing of electronic components.
53. The oxide levels in the atmosphere were recorded during the study.
54. The protective oxide layer prevented further oxidation of the metal.
55. The oxide was produced as a result of thermal decomposition.
56. The environmental effects of sulfur oxide are significant in urban areas.
57. The oxide synthesized in the lab showed promising results for energy storage.
58. The oxide analysis provided insights into the material's properties.
59. The oxide reaction was completed within a few hours.
60. The presence of aluminum oxide in the soil improved its quality.
61. The oxide formed during the experiment was unexpected.
62. The oxide compounds displayed unique electrical properties.
63. The researchers published their findings on the behavior of iron oxide.
64. The oxide film is a key component of the protective coating.
65. The team worked on reducing the oxide levels in their emissions.
66. The oxide particles were found to be highly reactive.
67. The oxide was carefully characterized using advanced techniques.
68. The oxide layer forms naturally when metals are exposed to air.
69. The study examined the role of oxide in various chemical processes.
70. The oxide materials were tested for their durability.
71. The oxide emissions were tracked over several months.
72. The oxide was used in the synthesis of new compounds.
73. The effects of nitrogen oxide on air quality are well-documented.
74. The oxide crystals exhibited interesting optical characteristics.
75. The oxide levels were found to be above the recommended limits.
76. The oxide compound was identified through spectroscopy.
77. The protective oxide layer is essential in many industrial applications.
78. The oxide formed during the reaction was carefully analyzed.
79. The oxide was used to create a stable environment for the reaction.
80. The study focused on the interactions between different oxide compounds.
81. The oxide produced during the reaction was a key finding.
82. The team explored the potential of using oxide in new technologies.
83. The oxide compounds were synthesized at high temperatures.
84. The oxide emissions were a topic of discussion at the conference.
85. The oxide was used in the formulation of the new product.
86. The team aimed to minimize the oxide waste generated during production.
87. The oxide formed on the surface improved its properties.
88. The oxide layers were analyzed for their thickness and composition.
89. The oxide was a crucial part of the chemical process.
90. The researchers found that the oxide had unique catalytic properties.
91. The oxide compounds were used in various applications.
92. The analysis of oxide content was part of the quality control process.
93. The oxide in the sample was determined to be a significant factor.
94. The team worked on developing new methods for oxide reduction.
95. The oxide levels were monitored to ensure safety standards.
96. The oxide reaction was faster at higher temperatures.
97. The protective oxide layer is vital for the longevity of the material.
98. The oxide synthesis was carried out under controlled conditions.
99. The study aimed to understand the relationship between oxide and reactivity.
100. The oxide byproducts were carefully measured during the experiment.