Add to ORKGThe rational design of heterogeneous catalysts relies on the efficient survey of mechanisms by density functional theory (DFT). However, massive reaction networks cannot be sampled effectively as they grow exponentially with the size of reactants. Here we present a statistical principal component analysis and regression applied to the DFT thermochemical data of 71 C1–C2 species on 12 close-packed metal surfaces. Adsorption is controlled by covalent (d-band center) and ionic terms (reduction potential), modulated by conjugation and conformational contributions. All formation energies can be reproduced from only three key intermediates (predictors) calculated with DFT. The results agree with accurate experimental measurements having error bar...
The expense of quantum chemistry calculations significantly hinders endeavors to search through dive...
The expense of quantum chemistry calculations significantly hinders endeavors to search through dive...
We present an extensive set of surface and chemisorption energies calculated using state of the art ...
Bond making and breaking are important to heterogenous catalysis. The strength and coordination of t...
Bond making and breaking are important to heterogenous catalysis. The strength and coordination of t...
<p>Transition metals represent some of the first catalysts used in industrial processes and are stil...
Computational screening for new and improved catalyst materials relies on accurate and low-cost pred...
The application of density functional theory to calculate adsorption properties, reac-tion pathways,...
Accurate prediction of adsorption energies on heterogeneous catalyst surfaces is crucial to predicti...
Accurate prediction of adsorption energies on heterogeneous catalyst surfaces is crucial to predicti...
Accurate prediction of adsorption energies on heterogeneous catalyst surfaces is crucial to predicti...
Accurate prediction of adsorption energies on heterogeneous catalyst surfaces is crucial to predicti...
Computational screening for new and improved catalyst materials relies on accurate and low-cost pred...
In this thesis, a wide breadth of topics related to the field of surface science are addressed using...
Understanding the adsorption phenomena of small adsorbates involved in surface reactions on transiti...
The expense of quantum chemistry calculations significantly hinders endeavors to search through dive...
The expense of quantum chemistry calculations significantly hinders endeavors to search through dive...
We present an extensive set of surface and chemisorption energies calculated using state of the art ...
Bond making and breaking are important to heterogenous catalysis. The strength and coordination of t...
Bond making and breaking are important to heterogenous catalysis. The strength and coordination of t...
<p>Transition metals represent some of the first catalysts used in industrial processes and are stil...
Computational screening for new and improved catalyst materials relies on accurate and low-cost pred...
The application of density functional theory to calculate adsorption properties, reac-tion pathways,...
Accurate prediction of adsorption energies on heterogeneous catalyst surfaces is crucial to predicti...
Accurate prediction of adsorption energies on heterogeneous catalyst surfaces is crucial to predicti...
Accurate prediction of adsorption energies on heterogeneous catalyst surfaces is crucial to predicti...
Accurate prediction of adsorption energies on heterogeneous catalyst surfaces is crucial to predicti...
Computational screening for new and improved catalyst materials relies on accurate and low-cost pred...
In this thesis, a wide breadth of topics related to the field of surface science are addressed using...
Understanding the adsorption phenomena of small adsorbates involved in surface reactions on transiti...
The expense of quantum chemistry calculations significantly hinders endeavors to search through dive...
The expense of quantum chemistry calculations significantly hinders endeavors to search through dive...
We present an extensive set of surface and chemisorption energies calculated using state of the art ...