Add to ORKGSimple, yet predictive bonding models are essential achievements of chemistry. In the solid state, in particular, they often appear in the form of visual bonding indicators. Because the latter require the crystal orbitals to be constructed from local basis sets, the application of the most popular density-functional theory codes (namely, those based on plane waves and pseudopotentials) appears as being ill-fitted to retrieve the chemical bonding information. In this paper, we describe a way to re-extract Hamilton-weighted populations from plane-wave electronic-structure calculations to develop a tool analogous to the familiar crystal orbital Hamilton population (COHP) method. We derive the new technique, dubbed "projected COHP" (pCOHP), and...
We present an update on recently developed methodology and functionality in the computer program Loc...
Molecular compounds, organic and inorganic, crystallize in diverse and complex structures. They cont...
We propose a scheme to construct predictive models for Hamiltonian matrices in atomic orbital repres...
Recognizing the bonding situations in chemical compounds is of fundamental interest for materials de...
Quantum-chemical computations of solids benefit enormously from numerically efficient plane-wave (PW...
Understanding crystalline structures based on their chemical bonding is growing in importance. In th...
© 2019 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim The atomic-scale structures of chalcogenide phase-...
There is a flourishing symbiosis between theoretical chemistry and physics when it comes to treating...
Quantum mechanics became a foundation for incessant development of versatile computational methods f...
Quantum chemistry-based codes and methods provide valuable computational tools to estimate reaction ...
Quantum chemistry-based codes and methods provide valuable computational tools to estimate reaction ...
We present an efficient and scalable computational approach for conducting projected population anal...
In the study of materials and macromolecules by first-principle methods, the bond order is a useful ...
The covalent nature of short hydrogen bonds has been under debate for long. Here we show that the cr...
Modern solid state chemistry is inconceivable without theoretical treatment of solids thanks to the ...
We present an update on recently developed methodology and functionality in the computer program Loc...
Molecular compounds, organic and inorganic, crystallize in diverse and complex structures. They cont...
We propose a scheme to construct predictive models for Hamiltonian matrices in atomic orbital repres...
Recognizing the bonding situations in chemical compounds is of fundamental interest for materials de...
Quantum-chemical computations of solids benefit enormously from numerically efficient plane-wave (PW...
Understanding crystalline structures based on their chemical bonding is growing in importance. In th...
© 2019 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim The atomic-scale structures of chalcogenide phase-...
There is a flourishing symbiosis between theoretical chemistry and physics when it comes to treating...
Quantum mechanics became a foundation for incessant development of versatile computational methods f...
Quantum chemistry-based codes and methods provide valuable computational tools to estimate reaction ...
Quantum chemistry-based codes and methods provide valuable computational tools to estimate reaction ...
We present an efficient and scalable computational approach for conducting projected population anal...
In the study of materials and macromolecules by first-principle methods, the bond order is a useful ...
The covalent nature of short hydrogen bonds has been under debate for long. Here we show that the cr...
Modern solid state chemistry is inconceivable without theoretical treatment of solids thanks to the ...
We present an update on recently developed methodology and functionality in the computer program Loc...
Molecular compounds, organic and inorganic, crystallize in diverse and complex structures. They cont...
We propose a scheme to construct predictive models for Hamiltonian matrices in atomic orbital repres...