Sparkle/AM1 Parameters for the Modeling of Samarium(III) and Promethium(III) Complexes

摘要

The Sparkle/AM1 model is extended to samarium(III) and promethium(III) complexes.A set of 15 structures of high crystallographic quality (R factor < 0.05 A),with ligands chosen to be representative of all samarium complexes in the Cambridge Crystallographic Database 2004,CSD,with nitrogen or oxygen directly bonded to the samarium ion,was used as a training set.In the validation procedure,we used a set of 42 other complexes,also of high crystallographic quality.The results show that this parametrization for the Sm(III) ion is similar in accuracy to the previous parametrizations for Eu(III),Gd(III),and Tb(III).On the other hand,promethium is an artificial radioactive element with no stable isotope.So far,there are no promethium complex crystallographic structures in CSD.To circumvent this,we confirmed our previous result that RHF/STO-3G/ECP,with the MWB effective core potential (ECP),appears to be the most efficient ab initio model chemistry in terms of coordination polyhedron crystallographic geometry predictions from isolated lanthanide complex ion calculations.We thus generated a set of 15 RHF/STO-3G/ECP promethium complex structures with ligands chosen to be representative of complexes available in the CSD for all other trivalent lanthanide cations,with nitrogen or oxygen directly bonded to the lanthanide ion.For the 42 samarium(III) complexes and 15 promethium-(III) complexes considered,the Sparkle/AM1 unsigned mean error,for all interatomic distances between the Ln(III) ion and the ligand atoms of the first sphere of coordination,is 0.07 and 0.06 A,respectively,a level of accuracy comparable to present day ab initio/ECP geometries,while being hundreds of times faster.