Add to ORKGWe demonstrate that, rather than resorting to high-cost dynamic correlation methods, qualitative failures in excited-state potential energy surface predictions can often be remedied at no additional cost by ensuring that optimal molecular orbitals are used for each individual excited state. This approach also avoids the weighting choices required by state-averaging and dynamic weighting and obviates their need for expensive wave function response calculations when relaxing excited-state geometries. Although multistate approaches are of course preferred near conical intersections, other features of excited-state potential energy surfaces can benefit significantly from our single-state approach. In three different systems, including a double ...
The development of variational density functional theory approaches to excited electronic states is ...
Linear response (LR) protocols like time dependent density functional theory (TDDFT) or equation of ...
WOS:000354775800005International audienceState-averaged (SA) variants of the spin-restricted ensembl...
We demonstrate that, rather than resorting to high-cost dynamic correlation methods, qualitative fai...
We present a method for finding individual excited states' energy stationary points in complete acti...
We present a general approach to converge excited state solutions to any quantum chemistry orbital o...
Quantum chemistry methods that describe excited states on the same footing as the ground state are g...
Linear response time dependent density functional theory (TDDFT), which builds upon configuration in...
Rearranging chemical bonds is chemistry. Simulating chemical reactions is an expensive and complex p...
Tuning the energies of molecular excited states is a central research theme in modern chemistry with...
Electronic structure theory is an evolving field with abounding potential applications to a multitud...
We present a new method for the computation of electronic excited states of molecular systems. This ...
Electron transfer and energy transfer play a central role in photo-induced excited state chemical dy...
Electron transfer and energy transfer play a central role in photo-induced excited state chemical dy...
Supplementary files for article Energy component analysis for electronically excited states of molec...
The development of variational density functional theory approaches to excited electronic states is ...
Linear response (LR) protocols like time dependent density functional theory (TDDFT) or equation of ...
WOS:000354775800005International audienceState-averaged (SA) variants of the spin-restricted ensembl...
We demonstrate that, rather than resorting to high-cost dynamic correlation methods, qualitative fai...
We present a method for finding individual excited states' energy stationary points in complete acti...
We present a general approach to converge excited state solutions to any quantum chemistry orbital o...
Quantum chemistry methods that describe excited states on the same footing as the ground state are g...
Linear response time dependent density functional theory (TDDFT), which builds upon configuration in...
Rearranging chemical bonds is chemistry. Simulating chemical reactions is an expensive and complex p...
Tuning the energies of molecular excited states is a central research theme in modern chemistry with...
Electronic structure theory is an evolving field with abounding potential applications to a multitud...
We present a new method for the computation of electronic excited states of molecular systems. This ...
Electron transfer and energy transfer play a central role in photo-induced excited state chemical dy...
Electron transfer and energy transfer play a central role in photo-induced excited state chemical dy...
Supplementary files for article Energy component analysis for electronically excited states of molec...
The development of variational density functional theory approaches to excited electronic states is ...
Linear response (LR) protocols like time dependent density functional theory (TDDFT) or equation of ...
WOS:000354775800005International audienceState-averaged (SA) variants of the spin-restricted ensembl...