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The sequestering ability of polyamines and aminoacids of biological and environmental relevance (namely, ethylenediamine, putrescine, spermine, a polyallylamine, a branched polyethyleneimine, aspartate, glycinate, lysinate) toward dimethyltin(IV) cation was evaluated. The stability of various dimethyltin(IV) / ligand species was determined in NaCl aq  at  t  = 25°C and at different ionic strengths (0.1 ≤  I /mol L −1  ≤ 1.0), and the dependence of stability constants on this parameter was modeled by an Extended Debye-Hückel equation and by Specific ion Interaction Theory (SIT) approach. At  I  = 0.1 mol L −1 , for the ML species we have log  K  = 10.8, 14.2, 12.0, 14.7, 11.9, 7.7, 13.7, and 8.0 for ethylenediamine, putrescine, polyallylamine, spermine, polyethyleneimine, glycinate, lysinate, and aspartate, respectively. The sequestering ability toward dimethyltin(IV) cation was defined by calculating the parameter pL 50  (the total ligand concentration, as −log C L , able to bind 50% of metal cation), able to give an objective representation of this ability. Equations were formulated to model the dependence of pL 50  on different variables, such as ionic strength and pH, and other empirical predictive relationships were also found.

bioinorganic chemistry and applications/bioinorganic chemistry and applications

Sequestration of Alkyltin(IV) Compounds in Aqueous Solution: Formation, Stability, and Empirical Relationships for the Binding of Dimethyltin(IV) Cation by N- and O-Donor Ligands