Implementation of very accurate ab initio methods on the one hand and improvements in computer facilities on the other hand allow the determination of structural, thermochemical, and spectroscopic properties of small- to medium-sized molecules to a very high accuracy. The predictive capabilities have become so high that theoretical calculations can guide, support, and even challenge experimental determinations. Therefore, nowadays ab initio calculations are suitable for benchmarking purposes, even for quite large systems. To perform benchmark calculations, highly correlated methods, such as the coupled cluster ones, should be employed in conjunction with extrapolative and additive techniques to account for basis set and wave function trunca...
Recent developments in ab initio coupled cluster (CC) theory and correlation consistent basis sets h...
Thermodynamic data are key in the understanding and design of chemical processes. Next to the experi...
The performance of several families of basis sets for correlated wave function calculations on molec...
Implementation of very accurate ab initio methods on the one hand and improvements in computer facil...
State-of-the-art coupled cluster computations allow the determination of structural, molecular, ther...
Implementation of very accurate ab initio methods on one hand and improvements in computer facilitie...
structure by means of quantum-chemistry as well as on the accuracy nowadays reachable will be presen...
Quantum Chemistry methods offer powerful tools for the computation of various properties of molecule...
This PhD thesis focuses on the theoretical and computational modeling of gas phase chemical reaction...
We review the current status of quantum chemistry as a predictive tool of chemistry and molecular ph...
Computational chemistry lies at the intersection of chemistry, physics, mathematics, and computer sc...
One of the central concerns of computational chemistry is that of efficiency (i.e. the development o...
Taking the coupled-cluster singles and doubles (CCSD) level augmented by a perturbative treatment of...
Recent developments in ab initio coupled cluster (CC) theory and correlation consistent basis sets h...
Thermodynamic data are key in the understanding and design of chemical processes. Next to the experi...
The performance of several families of basis sets for correlated wave function calculations on molec...
Implementation of very accurate ab initio methods on the one hand and improvements in computer facil...
State-of-the-art coupled cluster computations allow the determination of structural, molecular, ther...
Implementation of very accurate ab initio methods on one hand and improvements in computer facilitie...
structure by means of quantum-chemistry as well as on the accuracy nowadays reachable will be presen...
Quantum Chemistry methods offer powerful tools for the computation of various properties of molecule...
This PhD thesis focuses on the theoretical and computational modeling of gas phase chemical reaction...
We review the current status of quantum chemistry as a predictive tool of chemistry and molecular ph...
Computational chemistry lies at the intersection of chemistry, physics, mathematics, and computer sc...
One of the central concerns of computational chemistry is that of efficiency (i.e. the development o...
Taking the coupled-cluster singles and doubles (CCSD) level augmented by a perturbative treatment of...
Recent developments in ab initio coupled cluster (CC) theory and correlation consistent basis sets h...
Thermodynamic data are key in the understanding and design of chemical processes. Next to the experi...
The performance of several families of basis sets for correlated wave function calculations on molec...