Highly Efficient Numerical Method for Modeling Mofs Containing Transition Metal Ions

Employing a group-function based semiempirical approach, a new program package Sigma H Theta Omega$$ \varSigma H\varTheta \varOmega $$ (seethoo), targeted to modeling of metal-organic frameworks (MOFs) containing transition metal ions (TMIs) with open d-shells is developed. In this proof of concept study it is shown that the Sigma H Theta Omega$$ \varSigma H\varTheta \varOmega $$ package has potential to accurately compute d-shell low-spin (LS) -high-spin (HS) gaps and charge distributions in MOFs in ON1.33$$ O\left({N}<^>{1.33}\right) $$ time with reasonable accuracy. The calculations were carried out for a variety of MOFs and MOF-like systems containing doubly and triply charged Mn, Fe, Co and Ni ions. For Fe-containing systems, parameters of 57Fe$$ {}<^>{57}\mathrm{Fe} $$ M & ouml;ssbauer spectra were also computed. For the test runs, the results reasonably agree with available experimental data up to errors introduced by use of the CNDO parametrization in the test manner.