"Boreallate" Example Sentences
1. The formation of boreallate ions in acidic solutions is well known.
2. The structure of the boreallate complex was investigated using X-ray crystallography.
3. The boreallate ligand is known to form stable complexes with a variety of metal ions.
4. The synthesis of new boreallate compounds with unique properties is an active area of research.
5. The electrochemical behaviour of boreallate species has been extensively studied.
6. The thermodynamic stability of boreallate complexes is influenced by pH and solvent composition.
7. The protonation state of the boreallate ligand can have a major impact on its reactivity.
8. The coordination chemistry of boreallate ligands with transition metals has been extensively investigated.
9. The fluorescence properties of some boreallate compounds make them attractive for sensing applications.
10. The photochemistry of boreallate species is of interest for photovoltaic applications.
11. The kinetics of boreallate complex formation can be influenced by the nature of the metal ion and ligand.
12. The theoretical calculations of boreallate structures can provide insights into their properties and behaviour.
13. The photophysical properties of boreallate complexes depend on the local environment around the metal ion.
14. The luminescence properties of boreallate compounds make them attractive for biomedical applications.
15. The reactivity of boreallate ligands with different electrophiles has been investigated.
16. The spectroscopic properties of boreallate compounds have been characterized using a range of techniques.
17. The biological activity of some boreallate compounds has been explored.
18. The electrocatalytic properties of boreallate complexes have been evaluated for various applications.
19. The thermodynamic properties of boreallate ligands have been studied using calorimetry and other methods.
20. The coordination geometry of boreallate complexes can affect their stability and reactivity.
21. The binding affinity of boreallate ligands for certain metal ions can be enhanced by structural modifications.
22. The electronic properties of boreallate complexes are influenced by the presence of substituents in the ligand.
23. The use of boreallate compounds for electrochromic applications has been explored.
24. The kinetics of boreallate oxidation reactions have been studied using various methods.
25. The thermal stability of boreallate complexes is influenced by ligand and solvent interactions.
26. The chiral properties of boreallate ligands make them attractive for asymmetric synthesis.
27. The separation of boreallate species using chromatography has been investigated.
28. The regioselectivity of boreallate reactions can be influenced by the structure of the ligand.
29. The toxicity of some boreallate compounds has been evaluated using in vitro and in vivo models.
30. The use of boreallate complexes as catalysts for organic reactions has been explored.
Common Phases
1. The
boreallate ion is formed by a metal cation and a ligand;
2. The coordination of the ligands is important for the stability of the
boreallate;
3. The
boreallate can be characterized by methods such as infrared spectroscopy and X-ray crystallography;
4.
Boreallates have been used in catalysis and as precursors to materials with interesting properties;
5. The behavior of the
boreallate ion in solution is influenced by factors such as pH and temperature;
6.
Boreallates have been studied extensively due to their potential applications in various fields.