Add to ORKGIron-sulfur clusters play a variety of important roles in protein chemistry, and understanding the energetics of their spin ladders is an important part of understanding these roles. Computational modeling can offer considerable insight into such problems; however, calculations performed thus far on systems with multiple transition metals have typically either been restricted to a single-configuration representation of the density, as in Kohn-Sham theory, or been limited to correlating excitations only within an active space, as in active-space self-consistent field methods. For greater reliability, a calculation should include full correlation, i.e., not only correlation internal to the active space but also external correlation, and it is...
In a large variety of studies, the coupled-cluster method with singles, doubles, and perturbative tr...
The electronic structure relevant to low spin (LS)high spin (HS) transitions in Fe(II) coordination ...
High-level ab initio calculations using multiconfigurational perturbation theory complete active spac...
Iron–sulfur clusters play a variety of important roles in protein chemistry, and understanding the e...
Iron-sulfur clusters comprise an important functional motif of the catalytic centers of biological s...
Iron-sulfur clusters comprise an important functional motif in the catalytic centers of biological s...
Iron–sulfur clusters are a universal biological motif. They carry out electron transfer, redox chemi...
Iron sulfur cluster anions (FeS)<sub><i>m</i></sub><sup>–</sup> (<i>m</i> = 2–8) are studied by pho...
Coupled cluster valence bond (CCVB) is a simple electronic structure method based on a perfect pairi...
498-502The Fe2S2 clusters in nature are generally coordinated to the peptide backbone using thiolat...
The electronic structure of multinuclear transition metal complexes is a highly challenging problem ...
These studies are aimed at elucidating magnetic properties of metal complexes via ab initio electron...
Spin-state energetics of transition metal complexes remain one of the most challenging targets for e...
The application of classical molecular dynamics simulations to the study of metalloenzymes has been ...
The electronic structure of multinuclear transition metal complexes is a highly challenging problem ...
In a large variety of studies, the coupled-cluster method with singles, doubles, and perturbative tr...
The electronic structure relevant to low spin (LS)high spin (HS) transitions in Fe(II) coordination ...
High-level ab initio calculations using multiconfigurational perturbation theory complete active spac...
Iron–sulfur clusters play a variety of important roles in protein chemistry, and understanding the e...
Iron-sulfur clusters comprise an important functional motif of the catalytic centers of biological s...
Iron-sulfur clusters comprise an important functional motif in the catalytic centers of biological s...
Iron–sulfur clusters are a universal biological motif. They carry out electron transfer, redox chemi...
Iron sulfur cluster anions (FeS)<sub><i>m</i></sub><sup>–</sup> (<i>m</i> = 2–8) are studied by pho...
Coupled cluster valence bond (CCVB) is a simple electronic structure method based on a perfect pairi...
498-502The Fe2S2 clusters in nature are generally coordinated to the peptide backbone using thiolat...
The electronic structure of multinuclear transition metal complexes is a highly challenging problem ...
These studies are aimed at elucidating magnetic properties of metal complexes via ab initio electron...
Spin-state energetics of transition metal complexes remain one of the most challenging targets for e...
The application of classical molecular dynamics simulations to the study of metalloenzymes has been ...
The electronic structure of multinuclear transition metal complexes is a highly challenging problem ...
In a large variety of studies, the coupled-cluster method with singles, doubles, and perturbative tr...
The electronic structure relevant to low spin (LS)high spin (HS) transitions in Fe(II) coordination ...
High-level ab initio calculations using multiconfigurational perturbation theory complete active spac...