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Coordination preferences of Shiff base ligands with transition metals: DFT study
(Society of Biological Inorganic Chemistry, 2022)
To rationalize coordination preferences of the ligands to form mono- or binuclear complexes and coordinate differently, together with the electronic structure of transition metal ions, we performed Density Functional Theory ...
Modeling metal-ligand bonds – from ground to excited states
(Frankfurt, Germany : MBN Research Center gGmbH, 2022)
In this talk, our efforts in understanding and controlling metal-ligand bonding will be presented, mainly
based on the density functional calculations. The influence of the excited states on the electronic ground state ...
Supplementary material for: "What is the nature of bonding in [Fe(CO)3(NO)]− and [Fe(CO)4]2−?"
(Springer Nature, 2020)
Additional computational results: Energy decomposition analysis of [Fe(CO)3]2−– CO at SR-ZORA-BP86-D4/TZP and SR-ZORA-BHandHLYP/TZP level of theory; energy decomposition analysis of [Fe(CO)3–NO]¯ for different fragmentation ...
Modeling metal-ligand bonds – from ground to excited states
(TMMagCat project, 2022)
In this talk, our efforts in understanding and controlling metal-ligand bonding will be presented, mainly based on the density functional calculations. The influence of the excited states on the electronic ground state and ...
The role of DFT in characterization of coordination compounds: opportunities and challenges
(Viena, Austria : Institute of Applied Synthetic Chemistry, TU WienChemIT e.U., 2023)
In the last two decades, considerable theoretical efforts have been made to develop suitable methods for predicting and rationalizing the complicated electronic structure of TM compounds. However, the matter remains open ...
Understanding the fate of electronically excited states by quantum chemical calculations
(Prague, Czech Republic : J. Heyrovský Institute of Physical Chemistry CAS, 2023)
The electronically excited states of transition metal complexes are classified into inter-configurational and intra-configurational metal-centered, ligand-centered, and charge transfer
states. Different (de)localization ...
A Glimpse into the Ligand Field Theory from Density Functional Perspective
(Univ. Nova de LisboaCOST Action CM1305, 2017)
Electronic structure of transition metal complexes are commonly rationalized within the Ligand Field Theory (LFT). In LFT the Hamiltonian is parameterized in terms of one-electron (LF) parameters and two-electron repulsion ...
Density functional theory calculation of lipophilicity - bridging the gap between experiment and theory
(Belgrade : Serbian Chemical Society, 2018)
Density functional method with continuum solvation model is used for calculation of partition coefficient logKow and determination of lipophilicity of 22 most frequently used organophosphate type pesticides.
DFT/Solvation Continuum Electrostatic Calculations of Proton Pumping in Mammalian Cytochrome c Oxidase
(COST Action CA21101 "COSY", 2023)
With computer simulations that assess pKas of critical residues, explore electron and proton pathways, and evaluate the energetics of PT and ET processes, we can provide a more in-depth understanding of the molecular ...
Computational study of the spin-state energetics in manganese phthalocyanine
(COST Action CM1305Krakow, Poland : Faculty of Chemistry, Jagiellonian University, 2016)
Since 3d transition metal ion complexes in different spin states usually display quite different structural, spectral and magnetic properties, and also reactivity, it is important to correctly determine the spin ground ...