A thorough theoretical description of ultrafast phenomena that occur in complex systems constitutes a formidable challenge. It not only necessitates the use of quantum mechanical methods that can describe ground and possibly even electronically excited state potential energy surfaces with sufficient accuracy but also calls for approaches that can take the real-time dynamics of a system and the coupling between its electronic and nuclear degrees of freedom fully into account. Over the last years, our group has been active in the development of mixed quantum mechanical/molecular mechanical (QM/MM) methods for the in situ simulations of dynamical phenomena in ground and excited states within the adiabatic (Born-Oppenheimer) approximation. Re...
Molecular dynamics (MD) is a powerful condensed matter simulation tool for bridging between macrosco...
Nuclear quantum dynamics beyond the Born-Oppenheimer approximation is performed using quantum trajec...
This article presents a time dependent density functional theory (TDDFT) implementation to propagate...
The current state of the art of Quantum Mechanical/molecular mechanical (QM/MM) molecular dynamics a...
We present the SHARC/COBRAMM approach to enable easy and efficient excited-state dynamics simulation...
CONSPECTUS: Recent developments in nonadiabatic dynamics enabled ab inito simulations of complex ult...
Many chemical reactions exhibit nonadiabatic effects as a consequence of coupling between electronic...
We review state-of-the-art nonadiabatic molecular dynamics methods, with focus on the comparison of ...
The accurate description of large molecular systems in complex environments remains an ongoing chall...
Due to their very nature, ultrafast phenomena are often accompanied by the occurrence of nonadiabati...
This thesis deals with the question of how non-adiabatic dynamics that is induced in large molecular...
A. W. Jasper, S. Nangia, C. Zhu and D. G. Truhlar, Acc. Chem. Res. 39D. A. McCormack and K. F. Lim, ...
The objective of this project part is to develop methods and models for the investigation of process...
The Born‐Oppenheimer approximation constitutes a cornerstone of our understanding of molecules and t...
Seit ihrer Entstehung im letzten Jahrhundert hat sich die Quantenchemie weitverbreitet, mit der bere...
Molecular dynamics (MD) is a powerful condensed matter simulation tool for bridging between macrosco...
Nuclear quantum dynamics beyond the Born-Oppenheimer approximation is performed using quantum trajec...
This article presents a time dependent density functional theory (TDDFT) implementation to propagate...
The current state of the art of Quantum Mechanical/molecular mechanical (QM/MM) molecular dynamics a...
We present the SHARC/COBRAMM approach to enable easy and efficient excited-state dynamics simulation...
CONSPECTUS: Recent developments in nonadiabatic dynamics enabled ab inito simulations of complex ult...
Many chemical reactions exhibit nonadiabatic effects as a consequence of coupling between electronic...
We review state-of-the-art nonadiabatic molecular dynamics methods, with focus on the comparison of ...
The accurate description of large molecular systems in complex environments remains an ongoing chall...
Due to their very nature, ultrafast phenomena are often accompanied by the occurrence of nonadiabati...
This thesis deals with the question of how non-adiabatic dynamics that is induced in large molecular...
A. W. Jasper, S. Nangia, C. Zhu and D. G. Truhlar, Acc. Chem. Res. 39D. A. McCormack and K. F. Lim, ...
The objective of this project part is to develop methods and models for the investigation of process...
The Born‐Oppenheimer approximation constitutes a cornerstone of our understanding of molecules and t...
Seit ihrer Entstehung im letzten Jahrhundert hat sich die Quantenchemie weitverbreitet, mit der bere...
Molecular dynamics (MD) is a powerful condensed matter simulation tool for bridging between macrosco...
Nuclear quantum dynamics beyond the Born-Oppenheimer approximation is performed using quantum trajec...
This article presents a time dependent density functional theory (TDDFT) implementation to propagate...