Expand description
GFN0-xTB-inspired tight-binding method.
A simplified self-consistent tight-binding approach inspired by Grimme’s GFN family, covering H–Rn with valence-shell parameters.
Reference: Grimme, S.; Bannwarth, C.; Shushkov, P. “A Robust and Accurate Tight-Binding Quantum Chemical Method for Structures, Vibrational Frequencies, and Noncovalent Interactions of Large Molecular Systems Parametrized for All spd-Block Elements (Z = 1–86).” JCTC 13 (2017): 1989.
Re-exports§
pub use gfn1::solve_gfn1;pub use gfn1::Gfn1Result;pub use gfn2::solve_gfn2;pub use gfn2::Gfn2Result;pub use gradients::compute_xtb_gradient;pub use gradients::XtbGradientResult;pub use params::get_xtb_params;pub use params::is_xtb_supported;pub use params::XtbParams;pub use solver::solve_xtb;pub use solver::XtbResult;
Modules§
- gfn1
- GFN1-xTB method: improved tight-binding with shell-resolved charges.
- gfn2
- GFN2-xTB method: second-generation tight-binding with multipole electrostatics.
- gradients
- Analytical gradients for GFN0-xTB tight-binding calculations.
- params
- GFN0-xTB element parameters.
- solver
- GFN0-xTB-inspired tight-binding solver.