Add to ORKGAdvances in theor. chem., computational chem., materials science, physics, and supercomputers are making it practical to consider first principles (de novo) predictions of important systems and processes in the Chem., Biol., and Materials Sciences. Our approach is to build a hierarchy of models each based on the results of more fundamental methods but coarsened to make practical the consideration of much larger length and time scales. Connecting this multi-paradigm multi-scale hierarchy back to quantum mechanics enables the application of first principles to the coarse levels essential for practical simulations of complex systems.We will highlight some recent advances in methodol. such as: The ReaxFF reactive force field for predicting...
Advances in theory and in computational materials science and physics and in supercomputers are maki...
When modelling the shock response of a material it is imperative to have a physically-based equation...
As the recent climate problems are getting worse year after year, the demands for clean energy mater...
Advances in theor. chem. and supercomputers are making it practical to consider first principles (de...
We expect that systematic and seamless computational upscaling and downscaling for modeling, predict...
Dramatically improving the performance of fuel cell systems with their complex heterogeneous structu...
Dramatically improving the performance of fuel cell systems with their complex heterogeneous structu...
Atomistic simulations, based on ab-initio and semi-empirical approaches, are nowadays widespread in ...
First principles computation can be used to investigate an design materials in ways that can not be ...
This report documents research carried out by the author throughout his 3-years Truman fellowship. T...
Introduction Molecular dynamics is a general and basic approach for performing atomisticlevel simul...
Current advances in multiscale modelling of materials promise scientific and practical benefits incl...
This chapter outlines our progress toward developing a first-principles-based hierarchical multiscal...
Development of functional materials and smart processes entails innovative links between physical, c...
Nature is intrinsically multiscale, with physical length scales ranging from the Planck length to pl...
Advances in theory and in computational materials science and physics and in supercomputers are maki...
When modelling the shock response of a material it is imperative to have a physically-based equation...
As the recent climate problems are getting worse year after year, the demands for clean energy mater...
Advances in theor. chem. and supercomputers are making it practical to consider first principles (de...
We expect that systematic and seamless computational upscaling and downscaling for modeling, predict...
Dramatically improving the performance of fuel cell systems with their complex heterogeneous structu...
Dramatically improving the performance of fuel cell systems with their complex heterogeneous structu...
Atomistic simulations, based on ab-initio and semi-empirical approaches, are nowadays widespread in ...
First principles computation can be used to investigate an design materials in ways that can not be ...
This report documents research carried out by the author throughout his 3-years Truman fellowship. T...
Introduction Molecular dynamics is a general and basic approach for performing atomisticlevel simul...
Current advances in multiscale modelling of materials promise scientific and practical benefits incl...
This chapter outlines our progress toward developing a first-principles-based hierarchical multiscal...
Development of functional materials and smart processes entails innovative links between physical, c...
Nature is intrinsically multiscale, with physical length scales ranging from the Planck length to pl...
Advances in theory and in computational materials science and physics and in supercomputers are maki...
When modelling the shock response of a material it is imperative to have a physically-based equation...
As the recent climate problems are getting worse year after year, the demands for clean energy mater...