Solvate example sentences

"Solvate" Example Sentences

1. The solvent solvated the solute molecules by surrounding them.
2. The polar solvent was able to strongly solvate the polar solute.
3. The nonpolar solvent only weakly solvated the polar solute.
4. Adding more solvent helped solvate all of the solute particles.
5. The solvent molecules interacted with and solvated the ionic solute.
6. The hydration shell of water molecules solvated the ion.
7. The lattice energy was lowered as the solvent molecules solvated the ions.
8. The solubility of the solute increased as it became more strongly solvated.
9. The polar solvent formed hydrogen bonds with the polar solute to effectively solvate it.
10. The nonpolar solvent interacted through van der Waals forces to solvate the solute.
11. As more solvent was added, the solvation shell around the solute grew larger.
12. The solute ions became hydrated as the water solvent solvated them.
13. The solvation energy measures how well the solvent solvates the solute.
14. Adding more solvent allows better solvation of the solute particles.
15. Dipole-dipole interactions helped the solvent molecules solvate the polar solute.
16. The solvent encapsulated and solvated the hydrophobic solute molecules.
17. The solvent penetrated the pores of the solid to solvate the interior molecules.
18. The hydration number describes how many solvent molecules directly solvate the solute.
19. Solvation regulates chemical reactions by controlling reactivity of reactants.
20. The solubility increased as the solute gained a larger solvation shell.
21. Highly polar solvents solvate ionic solutes most effectively.
22. Solvation changes the potential energy of the solute-solvent system.
23. The solvation energy represents the favorability of solvating the solute.
24. Solvent cages form around solvated species to minimize repulsion.
25. The nonpolar solvent only formed van der Waals contacts with the solute.
26. The solvation shell buffered the solute ions from direct contact.
27. The solvent accessed interior pores and crevices to solvate trapped molecules.
28. The solvent adopted a structure that optimized its interactions with the solute.
29. The solvent lined the surface of the solute to maximize their contact.
30. Strong solvation lowered the energy state of the solvated species.
31. The solvent acted as a medium to dissolve and solvate the solute.
32. Chemical potentials change as species become solvated.
33. The transfer of a solute from gas phase to solution requires solvation.
34. Organic solvents are often nonpolar and only weakly solvate ionic solutes.
35. Electrolytes dissociate in solution as their ions become solvated.
36. The solvation number quantifies how many solvent molecules directly interact with a solute.
37. Changing the solvent alters how effectively it can solvate the solute.
38. The solvation energy comes from intermolecular interactions between solvent and solute.
39. Solvent cages restrict the movement of solvated species.
40. Hydrogen bonding helps water strongly solvate ionic solutes.
41. Dipole-dipole interactions enable polar solvents to solvate polar solutes.
42. The solution formed as solute particles became dispersed and solvated.
43. The solvent extensively penetrated the solid to solvate trapped molecules.
44. The solvation layer shields solute-solute interactions in solution.
45. The solvent structured itself around the solute to maximize solvation.
46. Better solvating ability leads to greater solubility of the solute.
47. Ionic solutes become dissociated as their ions are solvated in solution.
48. The solvation shell surrounds and isolates solvated species.
49. Solvation numbers increase with increased solvent polarity.
50. Nonpolar solutes are weakly solvated by nonpolar solvents.

Common Phases

1. The solvent solvated the solute particles, allowing them to dissolve.
2. The polar solvent strongly solvated the ionic solute.
3. Tetrahydrofuran efficiently solvates both polar and nonpolar molecules.
4. Water solvated the salts, helping them dissociate into ions.
5. The organic solvent poorly solvated the ionic dye.
6. The chemists chose an aprotic solvent that would strongly solvate the charged reactants.
7. The chemists added ethanol to solvate the small organic molecule.
8. The solute crystals dissolved as the solvent molecules solvated them.
9. The salts precipitated out of solution because the solvent could no longer solvate the ions effectively.
10. The chemists needed a polar solvent to efficiently solvate the ionic compound.
11. The solvent forms intermolecular interactions with the solute particles, solvating and surrounding them.
12. The solute remained undissolved because the nonpolar solvent could not solvate the polar particles.
13. The hydration shells of solvent molecules solvated the metal ions in solution.
14. They added methanol to the mixture to help solvate the nonpolar organic compound.
15. Dimethyl sulfoxide is capable of strongly solvating both ionic and nonpolar solutes.
16. Changing the solvent altered how well it could solvate the polar reactants.
17. The ionic compound remained undissolved because the hydrophobic solvent could not solvate the ions.
18. The hydrophilic polymer readily solvated in the aqueous solution.
19. Polar solvents tend to more efficiently solvate ionic and polar solutes.
20. Water, being a polar solvent, effectively solvated the ionic salt.
21. The solvent separated from the mixture because it could no longer adequately solvate the solute particles.
22. Acetone was added to solvate the organic precipitate.
23. The solvent formed van der Waals interactions with the nonpolar solute, helping solvate the particles.
24. Hydrogen bonding between the solvent and solute helped solvate the molecules.
25. The crystalline solid remained undissolved as the solvent could not penetrate the lattice to solvate the ions.
26. The hydrophilic hydration shells solvated the polar solute molecules.
27. Changing the solvent altered how well it could solvate and surround the solute particles.
28. They switched to a more aprotic solvent that could better solvate the reactive species.
29. The organic salt remained in solid form because the aqueous solvent could not solvate the nonpolar ions.
30. The solute crystal dissolved slowly as solvent diffused in and began to solvate the ions.
31. The solvents differed in their ability to solvate the polar organic compound.
32 The solvent's dipoles interacted with the solute's dipoles, helping solvate the particles.
33. The larger solvent molecules could not easily penetrate the crystal lattice to solvate the ions.
34. Coordinating solvents efficiently solvate metal cations through donation.
35. The solute particles clumped together as the solvent could no longer effectively solvate them.
36. They added acetone to the mixture to help solvate the nonpolar organic material.
37. The solvent's hydrogen bonding networks helped solvate the polar solute.
38. Larger solvent molecules solvate solute particles less efficiently.
39. The polarity of the solvent affected its ability to solvate the polar reactants.
40. Hexane cannot solvate ionic salts because it cannot interact strongly enough with the ions.
41. The organic compound remained undissolved because toluene could not efficiently solvate the polar molecules.
42. The solute quickly dissolved as the solvent surrounded and solvated the polar particles.
43. The solvent surrounded and solvated the ionic solute through ion-dipole interactions.
44. Their goal was to find a solvent that could adequately solvate all of the polar reactants.
45. Covalent interactions between solvent and solute helped solvate the organic molecules.
46. The solvate structure featured solvent molecules closely surrounding and interacting with the solute.
47. The aqueous solvent formed hydrogen bonds that solvated the hydrophilic polymer.
48. The solvating power of a solvent depends partly on its ability to form intermolecular interactions with the solute.
49. The ionic crystals remained insoluble because the nonpolar solvent could not adequately solvate the ions.
50. Changing the solvent altered its ability to solvate the solute through hydrogen bonding.
51. Increasing the polarity of the solvent increased its ability to solvate the ionic solute.
52. The solvent completely solvated the solute, allowing it to dissolve completely.
53. The mixture separated into layers because the solvent could no longer adequately solvate all components.
54. Dissolving the ionic salt required a solvent that could solvate the ions through electrostatic interactions.
55. Polar solvents can solvate ionic solutes through strong ion-dipole interactions.
56. Changing the solvent altered how effectively it could solvate the solute through dipole-dipole interactions.
57. Ion-pair solvates formed when solvent molecules solvated positively and negatively charged ions.
58. The solvated radical species featured a stabilizing shell of solvent molecules.
59. Aqueous ammonia efficiently solvated the metal salts through coordination.
60. The solvent no longer effectively solvated the ions as they precipitated out of solution.