Within density functional theory, a variational particle number approach for rational compound design (RCD) is presented. An expression for RCD is obtained in terms of minimization of a suitably defined energy penalty functional whose gradients are the nuclear and the electronic chemical potential. Using combined quantum and molecular mechanics, a nonpeptidic anticancer drug candidate is designed
A review. With the advances in genomics, proteomics and functional genomics new therapeutic targets ...
Computational chemistry is a branch of chemistry that uses principles of computer science to assist ...
Nucleic acids are a useful substrate for engineering at the molecular level. Designing the detailed ...
Within the Born-Oppenheimer picture of the electronic Schrödinger equation the external potential du...
AbstractRecent advances in the rational design of drug molecules based on a graph-theoretical approa...
In plane wave based electronic structure calculations the interaction of core and valence electrons ...
The development of a fragmentation-based scheme, viz. molecular tailoring approach (MTA) for ab init...
Despite steady advances in the power of computer hardware, many computations on molecular systems re...
We present a rigorous description of chemical space within a molecular grand-canonical ensemble mult...
Simultaneously accurate and efficient prediction of molecular properties throughout chemical compoun...
The aim of this thesis is to identify a procedure allowing us to use QMC in the balanced description...
A new concept of the molecular structure optimization method based on quantum dynamics computations ...
The value of fine and specialty chemicals is often determined by the specific requirements in their ...
Computational approaches have become an established and valuable component of pharmaceutical researc...
Electron distributions in drug molecules are crucial in drug design and can be predicted using densi...
A review. With the advances in genomics, proteomics and functional genomics new therapeutic targets ...
Computational chemistry is a branch of chemistry that uses principles of computer science to assist ...
Nucleic acids are a useful substrate for engineering at the molecular level. Designing the detailed ...
Within the Born-Oppenheimer picture of the electronic Schrödinger equation the external potential du...
AbstractRecent advances in the rational design of drug molecules based on a graph-theoretical approa...
In plane wave based electronic structure calculations the interaction of core and valence electrons ...
The development of a fragmentation-based scheme, viz. molecular tailoring approach (MTA) for ab init...
Despite steady advances in the power of computer hardware, many computations on molecular systems re...
We present a rigorous description of chemical space within a molecular grand-canonical ensemble mult...
Simultaneously accurate and efficient prediction of molecular properties throughout chemical compoun...
The aim of this thesis is to identify a procedure allowing us to use QMC in the balanced description...
A new concept of the molecular structure optimization method based on quantum dynamics computations ...
The value of fine and specialty chemicals is often determined by the specific requirements in their ...
Computational approaches have become an established and valuable component of pharmaceutical researc...
Electron distributions in drug molecules are crucial in drug design and can be predicted using densi...
A review. With the advances in genomics, proteomics and functional genomics new therapeutic targets ...
Computational chemistry is a branch of chemistry that uses principles of computer science to assist ...
Nucleic acids are a useful substrate for engineering at the molecular level. Designing the detailed ...