Silane example sentences

"Silane" Example Sentences

1. Silane is a crucial precursor in the semiconductor industry.
2. The reactivity of silane makes it versatile.
3. Researchers are exploring new applications for silane-based materials.
4. We used silane coupling agents to improve adhesion.
5. The decomposition of silane produces amorphous silicon.
6. Silane gas is highly flammable.
7. Safety precautions are essential when handling silane.
8. The purity of silane is critical for optimal results.
9. Silane is used in the deposition of thin films.
10. This experiment requires high-purity silane.
11. Silane treatment enhanced the hydrophobicity.
12. The silane reacted readily with the hydroxyl groups.
13. Many industries rely on the properties of silane.
14. Understanding silane chemistry is important.
15. They synthesized a novel silane-containing polymer.
16. The article focused on the applications of silane in coatings.
17. Chlorosilanes are derivatives of silane.
18. Silane is a silicon-hydrogen compound.
19. Improper handling of silane can be dangerous.
20. The team investigated the thermal stability of silane.
21. High-temperature processes often utilize silane.
22. Silane coupling agents improve the bond strength.
23. The properties of silane depend on its substituents.
24. Silane is stored in pressurized cylinders.
25. Silane-based materials offer unique advantages.
26. Further research is needed on the toxicology of silane.
27. With silane, we achieved better surface modification.
28. The company specializes in the production of silane derivatives.
29. Silane plays a vital role in microelectronics.
30. The experiment involved the controlled pyrolysis of silane.
31. Silane is a building block for many silicone materials.
32. They developed a new method for the synthesis of silane.
33. The reaction rate with silane was surprisingly fast.
34. Air exposure can lead to the oxidation of silane.
35. Silane is not readily available to the general public.
36. Specialized equipment is needed to handle silane safely.
37. The use of silane reduced production costs significantly.
38. We observed a significant improvement in performance after silane treatment.
39. The environmental impact of silane production should be considered.
40. Silane is a key component in this new composite material.
41. Careful monitoring of silane levels is crucial for process control.
42. The study compared different types of silane coupling agents.
43. Low-pressure chemical vapor deposition (LPCVD) is a common method for silane deposition.
44. They patented a new process for purifying silane.
45. The future of silane technology is promising.
46. Despite its flammability, silane remains indispensable.
47. The precise control of silane flow is vital for thin-film quality.
48. Improved silane delivery systems are under development.
49. Many factors affect the efficiency of silane reactions.
50. The cost-effectiveness of using silane varies depending on the application.

Common Phases

1. Silane coupling agents are widely used in composite materials.
2. Silane treatments improve adhesion in various applications.
3. Silane-based coatings enhance durability and performance.
4. Silane functionalization modifies surface properties.
5. Silane hydrolysis is a key step in many silane reactions.
6. Silane chemistry plays a crucial role in materials science.
7. Silane monomers polymerize to form polysilanes.
8. Silane gas is used in semiconductor manufacturing.
9. Silane crosslinking creates strong, durable networks.
10. Silane-modified fillers improve mechanical properties.
11. The use of silane in the production of silicone is extensive.
12. Silane deposition techniques are constantly evolving.
13. Silane-grafted polymers exhibit enhanced stability.
14. Alkoxysilanes are common types of silanes used in many applications.
15. Silane self-assembled monolayers (SAMs) are used for surface modification.
16. Chlorosilanes are reactive precursors for silane-based materials.
17. The reactivity of silanes depends on the substituents attached to the silicon atom.
18. Silane-mediated reactions are used to synthesize a variety of materials.
19. The application of silanes spans many industries, from construction to electronics.
20. Understanding silane chemistry is essential for material design.