| Literature DB >> 24319300 |
Hideshi Maki1, Masahiko Tsujito, Makoto Sakurai, Tetsuji Yamada, Hiroyuki Nariai, Minoru Mizuhata.
Abstract
Entities:
Keywords: Enthalpy; Entropy; Imido phosphate; Irving–Williams order; Multidentate complex; Potentiometric titration; Schwarzenbach
Year: 2013 PMID: 24319300 PMCID: PMC3843374 DOI: 10.1007/s10953-013-0099-2
Source DB: PubMed Journal: J Solution Chem ISSN: 0095-9782 Impact factor: 1.677
Fig. 1Structures of (n = 0, 2) anions. Upper plot , lower plot
Fig. 2Potentiometric titration curves for the protonation for (n = 0, 2) anions at 25.0 ± 0.5 °C and I = 0.1 mol·L−1 (NaNO3). Solid lines refer to the calculated curves by the use of the pertinent parameters of Table 1: (open circle), (n = 0–2); (filled circle), (n = 0–2)
Logarithmic stepwise protonation constants of (n = 0, 2) anions determined by potentiometric titrations at I = 0.1 mol·L−1 (NaNO3)
|
|
| ||||
|---|---|---|---|---|---|
| log10
| log10
| log10
| log10
| log10
| |
| 5 °C | 7.33 (0.01) | 5.12 (0.02) | 9.26 (0.04) | 6.47 (0.04) | 3.06 (0.03) |
| 15 °C | 7.55 (0.01) | 5.22 (0.01) | 9.38 (0.04) | 6.52 (0.03) | 3.13 (0.04) |
| 25 °C | 7.69 (0.01) | 5.34 (0.01) | 9.45 (0.03) | 6.65 (0.04) | 3.21 (0.04) |
| 30 °C | 7.77 (0.02) | 5.40 (0.02) | 9.50 (0.05) | 6.74 (0.02) | 3.29 (0.03) |
| 35 °C | 7.89 (0.02) | 5.49 (0.01) | 9.58 (0.04) | 6.81 (0.03) | 3.35 (0.03) |
Numbers in parentheses indicate standard deviations derived from the nonlinear least-squares approximation
Fig. 3Representative plots of pH versus a as Schwarzenbach’s titration curves for divalent metal complexes of (n = 0, 2) anions at 25.0 ± 0.5 °C and I = 0.1 mol·L−1 (NaNO3): (open circle), Mg2+; (triangle), Ca2+; (inverted triangle), Cu2+. Open symbols , filled symbols . a denotes the number of moles of base added per mole of ligand. Details of the titration are given in the text
Logarithmic stability constants, log10 β ML, of various divalent metal complexes of (n = 0, 2) anions determined by Schwarzenbach’s titration procedure at t = 25.0 ± 0.5 °C, I = 0.1 mol·L−1 (NaNO3)
|
|
| |
|---|---|---|
| Mg2+ | 4.58 (0.14) | 5.28 (0.03) |
| Ni2+ | 6.16 (0.13) | 6.61 (0.05) |
| Cu2+ | 8.01 (0.12) | 8.24 (0.04) |
| Zn2+ | 6.55 (0.10) | 7.35 (0.07) |
| Ca2+ | 4.98 (0.14) | 5.79 (0.08) |
| Sr2+ | 4.45 (0.13) | 5.13 (0.05) |
| Ba2+ | 4.15 (0.16) | 4.71 (0.07) |
Numbers in parentheses indicate standard deviations derived from replicate experiments
Fig. 4Relationships between log10 β ML and ionic radii of various divalent metal ions at 25.0 ± 0.5 °C and I = 0.1 mol·L−1 (NaNO3). Open symbols P3O10 5−, filled symbols:
Thermodynamic parameters for the complexation reactions of various divalent metal complexes of (n = 0, 2) anions t = 25.0 °C, I = 0.1 mol·L−1 (NaNO3)
|
|
| |||||
|---|---|---|---|---|---|---|
| −Δ | −Δ |
| −Δ | −Δ |
| |
| H+ | 44.0 (2.7) | −29.2 (1.4) | 73.2 (3.3) | 54.0 (1.6) | −16.4 (0.6) | 70.4 (2.7) |
| Mg2+ | 26.1 (3.8) | −46.3 (2.8) | 72.4 (4.7) | 30.3 (2.8) | −34.9 (2.2) | 65.2 (4.0) |
| Ni2+ | 35.0 (4.7) | −74.3 (3.7) | 109.3 (5.0) | 37.9 (2.8) | −16.8 (1.1) | 54.7 (2.9) |
| Cu2+ | 45.5 (4.0) | −84.0 (3.1) | 129.5 (4.9) | 46.9 (2.6) | 3.9 (0.2) | 43.0 (2.3) |
| Zn2+ | 37.1 (5.1) | −80.8 (3.6) | 117.9 (6.0) | 42.0 (2.5) | −8.5 (0.3) | 50.5 (3.0) |
| Ca2+ | 28.3 (2.7) | −15.6 (0.8) | 43.9 (4.2) | 33.4 (5.2) | −79.8 (4.0) | 113.2 (5.9) |
| Sr2+ | 25.5 (2.2) | −16.1 (0.7) | 41.6 (3.9) | 29.6 (4.6) | −75.5 (3.3) | 105.1 (5.7) |
| Ba2+ | 23.8 (2.2) | −30.0 (2.1) | 53.8 (2.8) | 27.2 (4.2) | −78.5 (5.2) | 105.7 (5.1) |
Numbers in parentheses indicate standard deviations derived from the linear least-squares approximation for van’t Hoff plots
Fig. 5Relationships between −ΔH° and TΔS° for the complexation of (n = 0, 2) anions with various divalent metal ions at 25.0 ± 0.5 °C and I = 0.1 mol·L−1 (NaNO3). a ; b . (plus), H+; (open circle), Mg2+; (filled circle), Ni2+; (filled square), Cu2+; (filled triangle), Zn2+; (open square), Ca2+; (open triangle), Sr2+; (inverted triangle), Ba2+. Open symbols refer to alkaline earth metal ions, and closed symbols refer to first row transition metal ions
Fig. 6Divalent metal ion binding modes for the complexation of (n = 0, 2) anions with various divalent metal ions. Structure a is considered to be an enthalpically favorable monodentate complex, while structure b is considered to be an entropically favorable bidentate complex. There are indications that at equilibrium an inner-sphere binding mode occurs, i.e., the nonbridging oxygen atoms in a ligand and the metal ion are not separated by water molecules