[Dagani R. Toxicologists seek structure-activity links. Chem Eng News 1981;9:26-9.10.1021/cen-v059n010.p026]Search in Google Scholar
[van de Waterbeemd H. Quantitative approaches to structure-activity relationship. In: Wermuth CG, editor. The practice of medical chemistry. London: Academic Press; 1996. p. 367-89.]Search in Google Scholar
[Wiener H. Structural determination of paraffin boiling points. J Am Chem Soc 1947;69:17-20.10.1021/ja01193a005]Search in Google Scholar
[Trinajstić N. Chemical Graph Theory. 1st edition. Boca Raton (FL): CRC Press; 1983.]Search in Google Scholar
[Todeschini R, Consonni V. Handbook of Molecular Deseciptors. Weinheim: Wiley, VCH; 2000.10.1002/9783527613106]Search in Google Scholar
[Konstantinova EV, Diudea MV. The Wiener polynomial derivatives and other topological indices in chemical research. Croat Chem Acta 2000;73:383-403.]Search in Google Scholar
[Lučić B, Miličević A, Nikolić S, Trinajstić N. Harary index - twelve years later. Croat Chem Acta 2002;75:847-68.]Search in Google Scholar
[Balaban AT, Mills D, Ivanciuc O, Basak SC. Reverse Wiener indices. Croat Chem Acta 2000;73:923-41.]Search in Google Scholar
[Rouvray DH. The modeling of chemical phenomena using topological indices. J Comput Chem 1987;8:470-80.10.1002/jcc.540080427]Search in Google Scholar
[Randić M. On history of the Randić index and emerging hostility toward chemical graph theory. MATCH Commun Math Comput Chem 2008;59:5-124.]Search in Google Scholar
[Irving H, Williams RJP. Order of stability of metal complexes. Nature 1948;162:746-7.10.1038/162746a0]Search in Google Scholar
[Pearson RG. Hard and soft acids and bases. J Am Chem Soc 1963;85:3533-9.10.1021/ja00905a001]Search in Google Scholar
[Sabolović J, Raos N. Critical evaluation of empirical force-field models for simulation of plasticity of copper(II) coordination. Polyhedron 1990;9:1277-86.10.1016/S0277-5387(00)86764-9]Search in Google Scholar
[Sabolović J, Raos N. Simulation of plasticity of a copper(II) coordination polyhedron with a force field based on coulombic interactions: conformational analysis of copper(II) chelates with α-amino acids. Polyhedron 1990;9:2419-27.10.1016/S0277-5387(00)86822-9]Search in Google Scholar
[Raos N, Niketić SR, Simeon VL. Conformational analysis of copper(II) chelates with epimeric amino acids. J Inorg Biochem 1982;16:1-19.10.1016/S0162-0134(00)80241-X]Search in Google Scholar
[Raos N, Simeon V. Conformtional analysis and hydration models of copper(II) threoninates and isoleucinates. J. Inorg Biochem 1983;18:133-51.10.1016/0162-0134(83)80017-8]Search in Google Scholar
[Brubaker G, Johnson DW. Quantitative estimates of steric effects. Intramolecular strain-energy effects on the stability and dissociation rate constants of polythia ether macrocycle complexes of copper(II). Inorg Chem 1984;23:1591-5.10.1021/ic00179a027]Search in Google Scholar
[Hancock RD, McDougall GJ, Marsicano F. Empirical force field calculations of strain-energy contributions to the thermodynamics of complex formation. 3. Chelate effect in complexes of polyamines. Inorg Chem 1979;18:2847-52.10.1021/ic50200a043]Search in Google Scholar
[Sigel H, Massaud SS, Corfu NA. Comparison of the extent of base backbinding in complexes of divalent metal ions with guanine (GMP2-), inosine (IMP2-) and adenosine 5'-monophosphate (AMP2-). The crucial role of N-7 basicity in metal ion-nucleic base recognition. J Am Chem Soc 1994;116:2958-71.10.1021/ja00086a028]Search in Google Scholar
[Vinokurov EG, Bondar VV. Prediction of stability constants for Cr(III) and Cr(II) complexes. Russ J Coord Chem 2003;29:66-72.10.1023/A:1021851219309]Search in Google Scholar
[Raos N. Estimation of stability constants of copper(II) chelates with amino acids by overlapping spheres method. Croat Chem Acta 2005;78:175-80.]Search in Google Scholar
[Miličević A, Raos N. Estimation of stability constants of copper(II) and nickel(II) chelates with 1,2-diaminoethanes by the overlapping spheres method. Croat Chem Acta 2005;78:525-34.]Search in Google Scholar
[Miličević A, Raos N. Estimation of stability constants of copper(II) bis-chelates by the overlapping spheres method. Croat Chem Acta 2006;79:281-90.]Search in Google Scholar
[Svetlitski R, Lomaka A, Karelson M. QSPR modelling of lanthanide-organic complex stability constants. Sep Sci Technol 2006;41:197-216.10.1080/01496390500446194]Search in Google Scholar
[Gažo J. Structure and properties of some copper(II) coordination compounds. Distortion isomerism of Cu(II) compounds. Pure Appl Chem 1974;38:279-301.10.1351/pac197438030279]Search in Google Scholar
[Grgas B, Nikolić S, Paulić N, Raos N. Estimation of stability constants of copper(II) chelates with N-alkylated amino acids using topological indices. Croat Chem Acta 1999;72:885-95.]Search in Google Scholar
[Nikolić S, Raos N. Estimation of stability constants of mixed amino acid complexes with copper(II) from topological indices. Croat Chem Acta 2001;74:621-31.]Search in Google Scholar
[Miličević A, Raos N. Estimation of stability of coordination compounds by using topological indices. Polyhedron 2006;25:2800-8.10.1016/j.poly.2006.04.012]Search in Google Scholar
[Miličević A, Raos N. Prediction of stability of copper(II) and nickel(II) complexes with fructose-amino acids from the molecular graph models developed on amino acid chelates. Croat Chem Acta 2007;80:557-63.]Search in Google Scholar
[A. Miličević A, Raos N. Estimation of stability constants of copper(II) chelates with triamines and their mixed complexes with amino acids by using topological indices and the overlapping spheres method. Polyhedron 2007;26:3350-6.10.1016/j.poly.2007.03.050]Search in Google Scholar
[Miličević A, Raos N. Influence of chelate ring interactions on copper(II) chelate stability studied by connectivity index functions. J Phys Chem 2008;112:7745-9.10.1021/jp802018m18665572]Search in Google Scholar
[Miličević A, Raos N. Estimation of stability constants of copper(II) and nickel(II) chelates with dipeptides by using topological indices. Polyhedron 2008;27:887-92.10.1016/j.poly.2007.11.017]Search in Google Scholar
[Miličević A, Raos N. Estimation of stability constants with connectivity index: development of bivariate and multivariate linear models for copper(II) chelates with oligopeptides. Croat Chem Acta, in press.]Search in Google Scholar