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Quinolinolate is a type of ligand that is commonly used in coordination chemistry to form complexes with various metal ions. These complexes can exhibit interesting properties and have been studied for potential applications in areas such as catalysis and materials science.
The oxidation number of rhodium in a coordination compound can vary, but it is commonly found in the +2 or +3 oxidation state. The coordination number of rhodium in a coordination compound is typically 6, as it can coordinate with up to six ligands.
G. Deganello has written: 'Transition metal complexes of cyclic polyolefins' -- subject(s): Coordination compounds, Organic cyclic compounds, Polyolefins, Transition metal complexes
A chemical technique using the formation of a colored complex to indicate the end of a titration.
Yes, boron is often used in drug development due to its ability to form stable coordination complexes with biomolecules. Boron-containing compounds have been utilized in a variety of pharmaceuticals, including anti-cancer drugs and antibiotics.
Werner's theory, proposed by Alfred Werner in 1893, was the first attempt to explain the bonding in coordination compounds. It suggested that metal ions can form coordination complexes by donating electron pairs to coordinate covalent bonds with surrounding ligands. This theory laid the foundation for modern coordination chemistry.
Complexes of Platinum
Yes, BF3 (boron trifluoride) is an acid. It is a Lewis acid, which means it is an electron acceptor and can react with Lewis bases to form coordination complexes.
Atomic absorption spectroscopy, complexometry titration, colorimetric titration direct potentiometric titration by using of selective ion-electrodes.
Ketone
An inner metallic complex refers to a coordination complex where the metal ion is surrounded by ligands within the coordination sphere. This means that the metal ion is positioned in the center of the complex, with ligands coordinated directly to the metal ion. Inner metallic complexes are commonly studied in coordination chemistry due to their unique properties and reactivity.
Poorly-soluble complexes reduce drug solubility. This enables the drug to be absorbed more slowly and it prolongs its action.