Automated exploration of the low-energy chemical space with fast quantum chemical methods
University of Bonn · Center for Theoretical Physics
Abstract
We propose and discuss an efficient scheme for the in silico sampling for parts of the molecular chemical space by semiempirical tight-binding methods combined with a meta-dynamics driven search algorithm. The focus of this work is set on the generation of proper thermodynamic ensembles at a quantum chemical level for conformers, but similar procedures for protonation states, tautomerism and non-covalent complex geometries are also discussed. The conformational ensembles consisting of all significantly populated minimum energy structures normally form the basis of further, mostly DFT computational work, such as the calculation of spectra or macroscopic properties. By using basic quantum chemical methods,…
Citation impact
- FWCI
- 114.54
- Percentile
- 100%
- References
- 168
Authors
3Topics & keywords
- Chemical space
- Quantum chemical
- Space (punctuation)
- In silico
- Sampling (signal processing)
- Molecular dynamics
- Energy (signal processing)
- Computer science