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Literature DB >> 21359301

Electronic spectroscopy of UO2(2+), NUO(+) and NUN: an evaluation of time-dependent density functional theory for actinides.

Paweł Tecmer¹, André Severo Pereira Gomes, Ulf Ekström, Lucas Visscher.

Abstract

The performance of the time-dependent density functional theory (TDDFT) approach has been evaluated for the electronic spectrum of the UO(2)(2+), NUO(+) and NUN molecules. Different exchange-correlation functionals (LDA, PBE, BLYP, B3LYP, PBE0, M06, M06-L, M06-2X, CAM-B3LYP) and the SAOP model potential have been investigated, as has the relative importance of the adiabatic local density approximation (ALDA) to the exchange-correlation kernel. The vertical excitation energies have been compared with reference data obtained using accurate wave-function theory (WFT) methods.

Entities: Chemical Mutation

Year: 2011 PMID： 21359301 DOI： 10.1039/c0cp02534h

Source DB: PubMed Journal: Phys Chem Chem Phys ISSN： 1463-9076 Impact factor: 3.676

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Cited

4 in total

Electronic spectroscopy of UO2(2+), NUO(+) and NUN: an evaluation of time-dependent density functional theory for actinides.

1. Circularly polarized luminescence of curium: a new characterization of the 5f actinide complexes.

2. KID Procedure Applied on the [(PY₅Me₂)MoO]⁺ Complex.

3. Redox and structural properties of accessible actinide(ii) metallocalixarenes (Ac to Pu): a relativistic DFT study.

4. Implementation of Relativistic Coupled Cluster Theory for Massively Parallel GPU-Accelerated Computing Architectures.

Electronic spectroscopy of UO2(2+), NUO(+) and NUN: an evaluation of time-dependent density functional theory for actinides.

1. Circularly polarized luminescence of curium: a new characterization of the 5f actinide complexes.

2. KID Procedure Applied on the [(PY5Me2)MoO]+ Complex.

3. Redox and structural properties of accessible actinide(ii) metallocalixarenes (Ac to Pu): a relativistic DFT study.

4. Implementation of Relativistic Coupled Cluster Theory for Massively Parallel GPU-Accelerated Computing Architectures.

2. KID Procedure Applied on the [(PY₅Me₂)MoO]⁺ Complex.