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100 Examples of sentences containing the common noun "divalent"

Definition

Divalent refers to a type of chemical species, particularly in the context of ions or atoms, that has a valence of two. This means it can form two bonds with other atoms or ions. Divalent ions are typically charged particles that can either accept or donate two electrons during chemical reactions.

Synonyms

  • Bivalent
  • Diivalent
  • Double-valent

Antonyms

  • Monovalent (having a valence of one)
  • Trivalent (having a valence of three)

Examples

  1. The magnesium ion is divalent and can bond with two chloride ions.
  2. Calcium is a divalent metal often used in various compounds.
  3. In the periodic table, elements like barium are classified as divalent.
  4. The divalent nature of the sulfate ion allows it to participate in various reactions.
  5. When forming a compound, the divalent cation typically pairs with two anions.
  6. Divalent ions play a crucial role in biological systems.
  7. The divalent nature of lead can lead to various chemical behaviors.
  8. Understanding divalent bonds is essential in chemistry.
  9. In organic chemistry, some molecules can exhibit divalent characteristics.
  10. The divalent state of iron can influence its reactivity.
  11. Many metals become divalent when they lose electrons.
  12. The coordination number of a divalent ion can affect crystal structures.
  13. Divalent ligands are critical in coordination chemistry.
  14. In solution, the divalent ion’s charge affects solubility.
  15. The formation of divalent complexes is studied in inorganic chemistry.
  16. Divalent species can act as catalysts in certain reactions.
  17. The divalent nature of certain compounds gives them unique properties.
  18. In redox reactions, a divalent ion can either gain or lose electrons.
  19. The stability of a divalent bond often depends on surrounding conditions.
  20. Divalent metals are often used in industrial processes.
  21. The role of divalent ions in cellular functions is well-documented.
  22. In geology, divalent cations can influence mineral formation.
  23. The divalent nature of zinc makes it essential in biochemistry.
  24. Divalent interactions are critical in molecular biology.
  25. The behavior of divalent ions in solution can vary significantly.
  26. The divalent nature of copper is important in its applications.
  27. Researchers studied the divalent character of various ions.
  28. A divalent bond can be stronger than a single bond in some cases.
  29. The divalent state of an element can change under different conditions.
  30. Many divalent compounds exhibit interesting optical properties.
  31. The presence of divalent ions can stabilize proteins.
  32. The divalent nature of tin contributes to its unique properties.
  33. In biochemistry, divalent cations often serve as enzyme cofactors.
  34. The divalent bond formation is crucial in material science.
  35. Understanding divalent interactions can help in drug design.
  36. The divalent nature of certain ions can affect precipitation reactions.
  37. Divalent compounds are often used in fertilizers.
  38. The divalent state of manganese can be involved in various oxidation states.
  39. The divalent character of certain ligands can affect their binding affinity.
  40. Divalent ions are essential for maintaining the body's electrolyte balance.
  41. The divalent nature of iron is key to its role in hemoglobin.
  42. Stability in divalent complexes can depend on ligand arrangement.
  43. Divalent ions can affect the pH of a solution.
  44. The chemistry of divalent metals is a rich field of study.
  45. Many divalent ions are toxic at high concentrations.
  46. The role of divalent ions in signaling pathways is a hot research topic.
  47. The divalent bond strength can differ based on atomic size.
  48. Divalent ions can form insoluble precipitates.
  49. Various techniques are used to analyze divalent ion concentrations.
  50. The divalent nature of certain minerals can influence soil health.
  51. There are many applications for divalent salts in agriculture.
  52. The divalent character of certain atoms makes them versatile in reactions.
  53. Divalent ions can enhance the stability of certain compounds.
  54. The role of divalent ions in neurotransmission is significant.
  55. Understanding divalent interactions aids in materials engineering.
  56. The divalent nature of certain ions can lead to complex formation.
  57. Divalent ions are often used in water treatment processes.
  58. The divalent state of some metals can lead to varying oxidation states.
  59. The study of divalent systems is crucial in understanding catalysis.
  60. Divalent cations are used in many biochemical applications.
  61. The divalent nature of ions can influence their mobility in a solution.
  62. Many divalent compounds are involved in energy storage.
  63. The divalent nature of certain ligands allows for stronger binding.
  64. Chemical reactions involving divalent species can be complex.
  65. The divalent character of certain ions can affect their reactivity.
  66. Divalent ions can interact with biological macromolecules.
  67. The chemistry of divalent salts is fundamental in inorganic chemistry.
  68. The divalent nature of certain compounds can enhance their stability.
  69. Divalent ions play a role in muscle contraction.
  70. Many divalent compounds are used in pharmaceuticals.
  71. The divalent nature of a chemical species can affect its toxicity.
  72. Divalent interactions are crucial in protein folding.
  73. The divalent character of certain elements can lead to unique compounds.
  74. The study of divalent systems is essential in environmental chemistry.
  75. The divalent nature of certain ions can affect solubility.
  76. Divalent complexes are often studied in coordination chemistry.
  77. The role of divalent ions in cellular signaling is critical.
  78. Many divalent ions are essential for enzyme activity.
  79. The divalent character of certain species can lead to interesting reaction pathways.
  80. Divalent interactions are important in molecular recognition.
  81. The stability of divalent compounds can vary with temperature.
  82. Understanding divalent ion behavior can help in wastewater treatment.
  83. The divalent nature of some ions can influence their transport properties.
  84. Many divalent compounds are used as catalysts in industrial processes.
  85. The role of divalent ions in physiological processes is well-studied.
  86. Divalent interactions can stabilize transition states in reactions.
  87. The chemistry of divalent ions is fundamental in biochemistry.
  88. Divalent metal ions can form complexes with organic molecules.
  89. The divalent nature of certain ions can affect their absorption.
  90. Understanding divalent interactions is key in drug development.
  91. Many divalent salts are used in laboratory settings.
  92. The divalent state of certain metals can influence their applications.
  93. The study of divalent compounds is important in nanotechnology.
  94. Divalent ions can participate in redox reactions.
  95. The divalent nature of certain ligands can affect their function.
  96. Many divalent ions are crucial for DNA synthesis.
  97. The divalent state of certain compounds can lead to different properties.
  98. The chemistry of divalent systems is diverse and complex.
  99. Divalent interactions are a focus in supramolecular chemistry.
  100. The role of divalent ions in metabolic pathways is fundamental to life.
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