Add to ORKGOn the basis of first-principles GW calculations, we study the quasiparticle properties of the guanine, adenine, cytosine, thymine, and uracil DNA and RNA nucleobases. Beyond standard G 0 W 0 calculations, starting from Kohn-Sham eigenstates obtained with (semi)local functionals, a simple self-consistency on the eigenvalues allows us to obtain vertical ionization energies and electron affinities within an average 0.11 and 0.18 eV error, respectively, as compared to state-of-the-art coupled-cluster and multiconfigurational perturbative quantum chemistry approaches. Further, GW calculations predict the correct π -character of the highest occupied state, due to several level crossings between density functional and GW calculations. Our study i...
We provide theoretical predictions of the intrinsic stability of different arrangements of guanine q...
Nucleobases in DNA and RNA are important building blocks of the genetic codes and are critical in tr...
Ionization of biomolecules remains still today rarely investigated on both the experimental and the ...
5 pages, 3 figuresInternational audienceOn the basis of first-principles GW calculations, we study t...
Using a nonempirically tuned range-separated DFT approach, we study both the quasiparticle propertie...
none8siAn extensive theoretical characterization of the singlet excited state manifold of the five c...
Abstract: We present equilibrium geometries, vibrational modes, dipole moments, ionization energies,...
The photoelectron properties of DNA and RNA bases are studied using many-body perturbation theory wi...
Quantum chemical high level ab initio coupled-cluster and multiconfigurational perturbation methods ...
High-level quantum-chemical ab initio coupled-cluster and multiconfigurational perturbation methods ...
The need to interpret ultraviolet photoemission data strongly motivates the refinement of first-prin...
The electronic properties of DNA molecules, defined by the sequence-dependent ionization potentials ...
The need to interpret ultraviolet photoemission data strongly motivates the refinement of first-prin...
none6siA computational protocol based on the complete and restricted active space self-consistent fi...
Low-order scaling GW implementations for molecules are usually restricted to approximations with dia...
We provide theoretical predictions of the intrinsic stability of different arrangements of guanine q...
Nucleobases in DNA and RNA are important building blocks of the genetic codes and are critical in tr...
Ionization of biomolecules remains still today rarely investigated on both the experimental and the ...
5 pages, 3 figuresInternational audienceOn the basis of first-principles GW calculations, we study t...
Using a nonempirically tuned range-separated DFT approach, we study both the quasiparticle propertie...
none8siAn extensive theoretical characterization of the singlet excited state manifold of the five c...
Abstract: We present equilibrium geometries, vibrational modes, dipole moments, ionization energies,...
The photoelectron properties of DNA and RNA bases are studied using many-body perturbation theory wi...
Quantum chemical high level ab initio coupled-cluster and multiconfigurational perturbation methods ...
High-level quantum-chemical ab initio coupled-cluster and multiconfigurational perturbation methods ...
The need to interpret ultraviolet photoemission data strongly motivates the refinement of first-prin...
The electronic properties of DNA molecules, defined by the sequence-dependent ionization potentials ...
The need to interpret ultraviolet photoemission data strongly motivates the refinement of first-prin...
none6siA computational protocol based on the complete and restricted active space self-consistent fi...
Low-order scaling GW implementations for molecules are usually restricted to approximations with dia...
We provide theoretical predictions of the intrinsic stability of different arrangements of guanine q...
Nucleobases in DNA and RNA are important building blocks of the genetic codes and are critical in tr...
Ionization of biomolecules remains still today rarely investigated on both the experimental and the ...