Nonempirical Range-Separated Hybrid Functional with Spatially Dependent Screened Exchange

Zhan, Jiawei; Govoni, Marco; Galli, Giulia

doi:10.1021/acs.jctc.3c00580

Cited by 5 publications

(6 citation statements)

References 100 publications

(192 reference statements)

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“…However, DFT eigenvalues do not (even in principle) correspond to the quasi-particle energies, except the system’s highest occupied state . In practice, much-improved estimates of individual electronic states are obtained with approximate DFT functionals that minimize self-interaction errors, e.g., with optimally tuned range-separated functionals in which the asymptotic form of the nonlocal exchange is attenuated, similar to the application of static screening. ,,− Yet, these methods are typically limited to the mean-field description, and they neglect nonlocality and potentially significant anisotropy of the dynamical screening. Further, the extension to new excited state signatures due to strong couplings between the single electron or hole excitation and the dynamical fluctuations necessitates to go beyond DFT. , …”

mentioning

confidence: 99%

Exceptional Spatial Variation of Charge Injection Energies on Plasmonic Surfaces

Lei,

Canestraight,

Vlcek

2023

J. Phys. Chem. Lett.

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Charge injection into a molecule on a metallic interface is a key step in many photoactivated reactions. We employ the many-body perturbation theory and compute the hole and electron injection energies for CO 2 molecule on an Au nanoparticle with ∼3,000 electrons and compare it to results for idealized infinite surfaces. We demonstrate a surprisingly large variation of the injection energy barrier depending on the precise molecular position on the surface. Multiple "hot spots," characterized by low energy barriers, arise due to the competition between the plasmonic coupling and the degree of hybridization between the molecule and the substrate. The charge injection barrier to the adsorbate on the nanoparticle surface decreases from the facet edge to the facet center. This finding contrasts with the typical picture in which the electric field enhancement on the nanoparticle edges is considered the most critical factor.

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mentioning

confidence: 99%

Exceptional Spatial Variation of Charge Injection Energies on Plasmonic Surfaces

Lei,

Canestraight,

Vlcek

2023

J. Phys. Chem. Lett.

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“…We are exploring the possibility of extending our TDDFT calculations by incorporating additional hybrid functionals, possibly leading to an improvement in the description of screening effects in solids, especially in low-dimensional hosts such as two-dimensional hexagonal boron nitride (2D-hBN). 93 Work is in progress to further accelerate TDDFT calculations through the use of density fitting techniques, 124,125 which could enable the direct study of multiple point defects and their interactions in the same supercell. Other interesting future efforts include the implementation of spin-flip TDDFT with the multicollinear formalism to reduce numerical instabilities 126,127 and coupling TDDFT with analytical nuclear forces and molecular dynamics.…”

Section: Discussionmentioning

confidence: 99%

“…91 The small difference between the TDDFT and QDET results and experiments may originate, at least in part, from the use of the DDH functional, which uses a screening constant corresponding to that of the pristine crystal. We expect that adopting a hybrid functional that incorporates the screening effects of both the host crystal and the defect 93 and at the same time taking into account electron−phonon interaction 94,95 may improve our TDDFT results. The optimized geometry in the excited state using TDDFT analytical nuclear forces and the resulting FC shifts and displacements are in good agreement with the ΔSCF results.…”

Section: Nvmentioning

confidence: 99%

Excited State Properties of Point Defects in Semiconductors and Insulators Investigated with Time-Dependent Density Functional Theory

Jin,

Yu,

Govoni

et al. 2023

J. Chem. Theory Comput.

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“…[99] There have been studies investigating procedures by which one can justify certain choices of the Hartree-Fock exchange fraction (see e.g., refs. [111,112] ), which rely on achieving "piecewise-linearity," a known property of the exact XC functional. Although these do not solve every problem, they are very successful in improving the accuracy of calculations and thereby improving the representation of localized electron states.…”

Section: Simulation Techniquesmentioning

confidence: 99%

On the Structure of Oxygen Deficient Amorphous Oxide Films

Strand,

Shluger

2023

Advanced Science

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Understanding defects in amorphous oxide films and heterostructures is vital to improving performance of microelectronic devices, thin‐film transistors, and electrocatalysis. However, to what extent the structure and properties of point defects in amorphous solids are similar to those in the crystalline phase are still debated. The validity of this analogy and the experimental and theoretical evidence of the effects of oxygen deficiency in amorphous oxide films are critically discussed. The authors start with the meaning and significance of defect models, such as “oxygen vacancy” in crystalline oxides, and then introduce experimental and computational methods used to study intrinsic defects in amorphous oxides and discuss their limitations and challenges. To test the validity of existing defect models, ab initio molecular dynamics is used with a non‐local density functional to model the structure and electronic properties of oxygen‐deficient amorphous alumina. Unlike some previous studies, the formation of deep defect states in the bandgap caused by the oxygen deficiency is found. Apart from atomistic structures analogous to crystal vacancies, the formation of more stable defect states characterized by the bond formation between under‐coordinated Al ions is shown. The limitations of such defect models and how they may be overcome in simulations are discussed.

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Nonempirical Range-Separated Hybrid Functional with Spatially Dependent Screened Exchange

Cited by 5 publications

References 100 publications

Exceptional Spatial Variation of Charge Injection Energies on Plasmonic Surfaces

Exceptional Spatial Variation of Charge Injection Energies on Plasmonic Surfaces

Excited State Properties of Point Defects in Semiconductors and Insulators Investigated with Time-Dependent Density Functional Theory

On the Structure of Oxygen Deficient Amorphous Oxide Films

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