Multiscale modeling is an effective tool for integrating different computational methods, creating a way of modeling diverse chemical and physical phenomena. Presented are studies on a variety of chemical problems at different computational scales and also the combination of different computational methods to study a single phenomenon. The methods used encompass density functional theory (DFT), molecular dynamics (MD) simulations and finite element analysis (FEA). The DFT studies were conducted both on the molecular level and using plane-wave methods. The particular topics studied using DFT are the rational catalyst design of complexes for C—H bond activation, oxidation of nickel surfaces and the calculation of interaction properties of car...
Metal–Organic Frameworks (MOFs) is class of materials, constructed from an extensive network of coor...
Transition metals are ever-present as reactive centers in biological and inorganic catalyticcycles.H...
One of the most important advances in modern theoretical surface science and catalysis research has ...
Multiscale modeling is an effective tool for integrating different computational methods, creating a...
Multiscale modeling is an effective tool for integrating different computational methods, creating a...
Density Functional Theory (DFT) is an effective tool for studying diverse metal systems. Presented h...
Herewith, an overview of the group's collaborative research efforts on the development and deploymen...
Computational chemistry provides a versatile toolbox for studying mechanistic details of catalytic r...
In this research the validity of various computational techniques has been determined and applied th...
Metal complexes are ubiquitous for their diverse applications including catalysis, sensing, medicine...
Our research activity in computational chemistry at the university of Fribourg is briefly presented ...
Computational chemistry provides a versatile toolbox for studying mechanistic details of catalytic r...
This dissertation delves into the catalytic activity of multiple metal-containing complexes with an ...
Quantum chemistry methodologies can be used to address a wide variety of chemical problems. Key to ...
This chapter reviews recent applications of density functional theory (DFT) based methods in the stu...
Metal–Organic Frameworks (MOFs) is class of materials, constructed from an extensive network of coor...
Transition metals are ever-present as reactive centers in biological and inorganic catalyticcycles.H...
One of the most important advances in modern theoretical surface science and catalysis research has ...
Multiscale modeling is an effective tool for integrating different computational methods, creating a...
Multiscale modeling is an effective tool for integrating different computational methods, creating a...
Density Functional Theory (DFT) is an effective tool for studying diverse metal systems. Presented h...
Herewith, an overview of the group's collaborative research efforts on the development and deploymen...
Computational chemistry provides a versatile toolbox for studying mechanistic details of catalytic r...
In this research the validity of various computational techniques has been determined and applied th...
Metal complexes are ubiquitous for their diverse applications including catalysis, sensing, medicine...
Our research activity in computational chemistry at the university of Fribourg is briefly presented ...
Computational chemistry provides a versatile toolbox for studying mechanistic details of catalytic r...
This dissertation delves into the catalytic activity of multiple metal-containing complexes with an ...
Quantum chemistry methodologies can be used to address a wide variety of chemical problems. Key to ...
This chapter reviews recent applications of density functional theory (DFT) based methods in the stu...
Metal–Organic Frameworks (MOFs) is class of materials, constructed from an extensive network of coor...
Transition metals are ever-present as reactive centers in biological and inorganic catalyticcycles.H...
One of the most important advances in modern theoretical surface science and catalysis research has ...
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