6533b833fe1ef96bd129c3e0
RESEARCH PRODUCT
Cu2+ Coordination Properties of a 2-Pyridine Heptaamine Tripod: Characterization and Binding Mechanism
Alejandra Sornosa TenNicolas HumbertMourad ElhabiriAnne-marie Albrecht-garyEnrique García-españaJulia JezierskaJosé M. LlinaresBegoña VerdejoConxa SorianoHenryk Kozłowskisubject
chemistry.chemical_classificationSpectrometry Mass Electrospray IonizationMolecular StructurePyridinesStereochemistryTripod (photography)ProtonationHydrogen-Ion ConcentrationLigandsKinetic energyAcid excesslaw.inventionCoordination complexInorganic Chemistrychemistry.chemical_compoundCrystallographyReaction rate constantchemistrylawPyridinePolyaminesProtonsPhysical and Theoretical ChemistryElectron paramagnetic resonanceCopperdescription
The synthesis, protonation, and Cu(2+) coordination chemistry of a tripodal heptaamine ligand (L(1)) functionalized with 2-pyridine fragments at the ends of its three branches are reported. L(1) presents six relatively high protonation constants followed by much more reduced constant that as indicated by the UV-vis and NMR data, occur on the pyridine fragments. p[H]-metric, ESI/MS(+), EPR and UV-vis data show that L(1) is able to form mono-, di-, and trinuclear Cu(2+) complexes. Slippage movements and molecular reorganizations have been observed to occur as a function of p[H] in the 1:1 Cu(2+) complexes. The kinetic studies showed that the complex formation is fast and proceeds through a dissociative Eigen-Wilkins mechanism. The decomposition of CuL(1) upon addition of acid excess occurs with two separate kinetic steps; the rate constant for the fast process does not vary with respect to the H(+) concentration whereas a linear dependence on H(+) is observed for the slow step.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2009-08-26 | Inorganic Chemistry |