Litcius/Paper detail

XTBDFT: Automated workflow for conformer searching of minima and transition states powered by extended tight binding and density functional theory

Sibo Lin, Mohamed Elanany, Motaz Khawaji

2022SoftwareX13 citationsDOIOpen Access PDF

Abstract

Recent developments have greatly increased accuracy, applicability, and accessibility of extended tight binding theory (XTB), allowing for rapid semi-empirical quantum mechanical calculations of molecular potential energy surfaces. For finer thermochemical accuracy, density functional theory (DFT) calculations are still required on stationary points. Such multi-level simulations present a steep learning curve, and trained researchers must spend significant time monitoring calculations and managing the workflow. Herein, we present XTBDFT, the first automated workflow between all freely licensed engines for XTB, DFT, and helper modules. In this version, the specific engines are GFN-XTB/CREST, NWChem, and GoodVibes, respectively. Example applications of this workflow is presented, finding the lowest energy conformer of a metal complex with multiple hindered degrees of internal rotation.

Topics & Concepts

WorkflowDensity functional theoryMaxima and minimaComputer scienceQuantumConformational isomerismPotential energy surfaceStatistical physicsComputational scienceTheoretical computer sciencePhysicsComputational chemistryChemistryMathematicsQuantum mechanicsMoleculeDatabaseMathematical analysisMachine Learning in Materials ScienceCatalysis and Oxidation ReactionsAdvanced Chemical Physics Studies