Add to ORKGThe impact of ligand protonation on metal speciation dynamics is quantitatively described. Starting from the usual situation for metal complex formation reactions in aqueous systems, i.e., exchange of water for the ligand in the inner coordination sphere as the rate-determining step (Eigen mechanism), expressions are derived for the lability of metal complexes with protonated and unprotonated ligand species being involved in formation of the precursor outer-sphere complex. A differentiated approach is developed whereby the contributions from all outer-sphere complexes are included in the rate of complex formation, to an extent weighted by their respective stabilities. The stability of the ion pair type outer-sphere complex is given particul...
Ligand-protonation constants and complexation kinetics of differently protonated forms of 10-methyl-...
The chemodynamics of metal complexes with nanoparticulate complexants can differ significantly from ...
Department of Chemistry, Inorganic Chemistry Division, University College of Science, Calcutta 7000...
The impact of ligand protonation on metal speciation dynamics is quantitatively described. Starting ...
The impact of ligand protonation on the complexation kinetics of higher-order complexes is quantitat...
A generic framework, based on the Eigen mechanism, is formulated to describe the formation/dissociat...
The degree of (de)protonation of aqueous metal species has significant consequences for the kinetics...
Recent progress in understanding the formation/dissociation kinetics of aquatic metal complexes with...
The mechanism of chemisorption of aqueous metal ions at surfaces has long been a topical issue in su...
A theoretical discussion is presented to describe the formation and dissociation rate constants for ...
In this thesis work, we investigated the chelate effect of metal complex formation. We studied and c...
Understanding the reaction-diffusion processes of metal species is essential for an adequate descrip...
Electrospray ionization mass spectrometry was used to investigate complex formation of different met...
Electrospray ionization mass spectrometry was used to investigate complex formation of different met...
The dynamic features of metal binding by a gel-like polysaccharide, carboxymethyldextran (CMD), are ...
Ligand-protonation constants and complexation kinetics of differently protonated forms of 10-methyl-...
The chemodynamics of metal complexes with nanoparticulate complexants can differ significantly from ...
Department of Chemistry, Inorganic Chemistry Division, University College of Science, Calcutta 7000...
The impact of ligand protonation on metal speciation dynamics is quantitatively described. Starting ...
The impact of ligand protonation on the complexation kinetics of higher-order complexes is quantitat...
A generic framework, based on the Eigen mechanism, is formulated to describe the formation/dissociat...
The degree of (de)protonation of aqueous metal species has significant consequences for the kinetics...
Recent progress in understanding the formation/dissociation kinetics of aquatic metal complexes with...
The mechanism of chemisorption of aqueous metal ions at surfaces has long been a topical issue in su...
A theoretical discussion is presented to describe the formation and dissociation rate constants for ...
In this thesis work, we investigated the chelate effect of metal complex formation. We studied and c...
Understanding the reaction-diffusion processes of metal species is essential for an adequate descrip...
Electrospray ionization mass spectrometry was used to investigate complex formation of different met...
Electrospray ionization mass spectrometry was used to investigate complex formation of different met...
The dynamic features of metal binding by a gel-like polysaccharide, carboxymethyldextran (CMD), are ...
Ligand-protonation constants and complexation kinetics of differently protonated forms of 10-methyl-...
The chemodynamics of metal complexes with nanoparticulate complexants can differ significantly from ...
Department of Chemistry, Inorganic Chemistry Division, University College of Science, Calcutta 7000...