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Ternary adduct formation constants

Ternary Adduct Formation Constants of Early Actinide Ions with some Beta-Diketones... [Pg.79]

Table 14 Extent of intramolecular aromatic-ring stacking or hydrophobic adduct formation in ternary M(N)(L) complexes, where N = nucleotide and L = another ligand, as depicted for example in equilibrium (34) and as calculated from stability constants determined via potentio-metric (pot.) pH titrations Stability enhancement log zIm/n/l (analogous to eq. 14), intramolecular and dimensionless equilibrium constant Kj/st (eq. 34), and percentage of the closed M(N)(L)d species in aqueous solution at 25°C and / = 0.1 M (NaC104 or KNOs)." " For comparison some results obtained from H NMR shift experiments are also given. Table 14 Extent of intramolecular aromatic-ring stacking or hydrophobic adduct formation in ternary M(N)(L) complexes, where N = nucleotide and L = another ligand, as depicted for example in equilibrium (34) and as calculated from stability constants determined via potentio-metric (pot.) pH titrations Stability enhancement log zIm/n/l (analogous to eq. 14), intramolecular and dimensionless equilibrium constant Kj/st (eq. 34), and percentage of the closed M(N)(L)d species in aqueous solution at 25°C and / = 0.1 M (NaC104 or KNOs)." " For comparison some results obtained from H NMR shift experiments are also given.
See other pages where Ternary adduct formation constants is mentioned: [Pg.489]    [Pg.957]    [Pg.51]    [Pg.452]    [Pg.5830]    [Pg.364]    [Pg.113]    [Pg.470]    [Pg.161]   


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