Add to ORKGTo account for the distortion of the coordination sphere that takes place in complexes containing open-shell metal cations such as Cu(II), we implemented, in sum of interactions between fragments ab initio, computed (SIBFA) molecular mechanics, an additional contribution to take into account the ligand field splitting of the metal d orbitals. This term, based on the angular overlap model, has been parameterized for Cu(II) coordinated to oxygen and nitrogen ligands. The comparison of the results obtained from density functional theory computations on the one hand and SIBFA or SIBFA-LF on the other shows that SIBFA-LF gives geometric arrangements similar to those obtained from quantum mechanical computations. Moreover, the geometric improveme...
We have developed new force field and parameters for copper(I) and mercury(II) to be used in molecul...
Molecular dynamics on the complexes of inhibitors with Zn-metalloproteins are a privileged area of a...
The Ligand Field Molecular Mechanics (LFMM) method has been applied to 85 Cu(II)-amine complexes, ei...
To account for the distortion of the coordination sphere that takes place in complexes containing op...
International audienceWe present refinements of the SIBFA (Sum of Interaction Between Fragments ab i...
The development and application of molecular mechanics methods which include an explicit treatment o...
The ability of ligand field molecular mechanics (LFMM) to model accurately the structures and relati...
The force field for the cellular ligand field stabilisation energy/molecular mechanics (CLFSE/MM) me...
International audienceThe existence of a network of structured waters in the vicinity of the bimetal...
Abstract: Following recent refinements of the SIBFA intermolecular potential to the multipolar elect...
In this paper we first summarize the distinctive features of the the SIBFA (Sum of Interactions Betw...
Ligand Field Molecular Mechanics (LFMM) parameters have been optimised for six-coordinate Cu(II) com...
International audienceWe have developed new force field and parameters for copper(I) and mercury(II)...
We have developed new force field and parameters for copper(I) and mercury(II) to be used in molecul...
Molecular dynamics on the complexes of inhibitors with Zn-metalloproteins are a privileged area of a...
The Ligand Field Molecular Mechanics (LFMM) method has been applied to 85 Cu(II)-amine complexes, ei...
To account for the distortion of the coordination sphere that takes place in complexes containing op...
International audienceWe present refinements of the SIBFA (Sum of Interaction Between Fragments ab i...
The development and application of molecular mechanics methods which include an explicit treatment o...
The ability of ligand field molecular mechanics (LFMM) to model accurately the structures and relati...
The force field for the cellular ligand field stabilisation energy/molecular mechanics (CLFSE/MM) me...
International audienceThe existence of a network of structured waters in the vicinity of the bimetal...
Abstract: Following recent refinements of the SIBFA intermolecular potential to the multipolar elect...
In this paper we first summarize the distinctive features of the the SIBFA (Sum of Interactions Betw...
Ligand Field Molecular Mechanics (LFMM) parameters have been optimised for six-coordinate Cu(II) com...
International audienceWe have developed new force field and parameters for copper(I) and mercury(II)...
We have developed new force field and parameters for copper(I) and mercury(II) to be used in molecul...
Molecular dynamics on the complexes of inhibitors with Zn-metalloproteins are a privileged area of a...
The Ligand Field Molecular Mechanics (LFMM) method has been applied to 85 Cu(II)-amine complexes, ei...