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Molecular Physics
An International Journal at the Interface Between Chemistry and Physics
Volume 117, 2019 - Issue 9-12: Dieter Cremer Memorial Issue
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Dieter Cremer Memorial

Extension of the element parameter set for ultra-fast excitation spectra calculation (sTDA-xTB)

Jakob SeibertMulliken Center for Theoretical Chemistry, University of Bonn, Bonn, GermanyView further author information
,
Jana PisarekMulliken Center for Theoretical Chemistry, University of Bonn, Bonn, GermanyView further author information
,
Sarah SchmitzMulliken Center for Theoretical Chemistry, University of Bonn, Bonn, GermanyView further author information
,
Christoph BannwarthMulliken Center for Theoretical Chemistry, University of Bonn, Bonn, GermanyView further author information
&
Stefan GrimmeMulliken Center for Theoretical Chemistry, University of Bonn, Bonn, GermanyCorrespondence[email protected]
View further author information
Pages 1104-1116 | Received 14 Jun 2018, Accepted 30 Jul 2018, Published online: 16 Aug 2018
 
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ABSTRACT

The extension of the parameter set for an ultra-fast electronic excitation spectra calculation is presented. The semiempirical theory based on a tight-binding approach, called extended tight-binding (xTB) in combination with the simplified Tamm-Dancoff approximation (sTDA) shows remarkable accuracy at very low computational cost for the calculation of vertical excitation energies of molecules. It enables the possibility for computing even large systems up to thousands of atoms or sampling along molecular dynamic (MD) trajectories. The original publication of the sTDA-xTB method included parameters for the most important elements (H-Zn,Br,I). In this work, element parameters for 4d and 5d metals, and the missing ones in 4p, 5p and 6p element blocks are presented and analysed for their quality. Comparisons to theory and experiment show that sTDA-xTB provides similar good results as for the elements in the original publication with an average deviation of excitation energies of 0.3–0.5 eV.

GRAPHICAL ABSTRACT

Disclosure statement

The authors declare no competing financial interest.

Additional information

Funding

This work was supported by the Deutsche Forschungsgemeinschaft DFG in the framework of the Gottfried-Wilhelm-Leibniz prize.

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