Kagome metal-organic frameworks as a platform for strongly correlated electrons

Marius Fuchs; Peitao Liu; Tilman Schwemmer; Giorgio Sangiovanni; Ronny Thomale; Cesare Franchini; Domenico Di Sante

doi:10.1088/2515-7639/ab713b

Kagome metal-organic frameworks as a platform for strongly correlated electrons

Marius Fuchs, Peitao Liu, Tilman Schwemmer, Giorgio Sangiovanni, Ronny Thomale, Cesare Franchini, Domenico Di Sante (Corresponding author)

Computational Materials Physics

Publications: Contribution to journal › Article › Peer Reviewed

Abstract

By using first-principles calculations we put forward the Cu-dicyanoanthracene lattice as a platform to investigate strong electronic correlations in the family of Kagome metal-organic frameworks. We show that the low-energy model is composed by molecular orbitals which arrange themselves in a typical Kagome lattice at n = 2/3 filling, where the Fermi level lies at the Dirac point. The Coulomb interaction matrix expressed in this molecular orbitals basis, as obtained by large-scale constrained random-phase approximation calculations, is characterized by local U and non-local parameters exceeding more than ten times the Kagome bandwidth. For such Kagome systems, our findings suggest the possible emergence of peculiar electron–electron collective phenomena, such as an exotic valence bond solid order characterized by modulated bond strengths.

Original language	English
Article number	025001
Number of pages	7
Journal	Journal of Physics: Materials
Volume	3
Issue number	2
DOIs	https://doi.org/10.1088/2515-7639/ab713b
Publication status	Published - Apr 2020

Austrian Fields of Science 2012

103018 Materials physics

Keywords

FERROELECTRICITY
Kagome lattice
NETWORK
ab initio calculations
constrained random phase approximation
electronic correlations
organic materials
Constrained random phase approximation
Electronic correlations
Organic materials
Ab initio calculations

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10.1088/2515-7639/ab713bLicence: CC BY 4.0

https://phaidra.univie.ac.at/o:1236565Licence: CC BY 4.0

Cite this

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title = "Kagome metal-organic frameworks as a platform for strongly correlated electrons",

abstract = "By using first-principles calculations we put forward the Cu-dicyanoanthracene lattice as a platform to investigate strong electronic correlations in the family of Kagome metal-organic frameworks. We show that the low-energy model is composed by molecular orbitals which arrange themselves in a typical Kagome lattice at n = 2/3 filling, where the Fermi level lies at the Dirac point. The Coulomb interaction matrix expressed in this molecular orbitals basis, as obtained by large-scale constrained random-phase approximation calculations, is characterized by local U and non-local parameters exceeding more than ten times the Kagome bandwidth. For such Kagome systems, our findings suggest the possible emergence of peculiar electron–electron collective phenomena, such as an exotic valence bond solid order characterized by modulated bond strengths.",

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author = "Marius Fuchs and Peitao Liu and Tilman Schwemmer and Giorgio Sangiovanni and Ronny Thomale and Cesare Franchini and Sante, {Domenico Di}",

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AU - Fuchs, Marius

AU - Liu, Peitao

AU - Schwemmer, Tilman

AU - Sangiovanni, Giorgio

AU - Thomale, Ronny

AU - Franchini, Cesare

AU - Sante, Domenico Di

PY - 2020/4

Y1 - 2020/4

N2 - By using first-principles calculations we put forward the Cu-dicyanoanthracene lattice as a platform to investigate strong electronic correlations in the family of Kagome metal-organic frameworks. We show that the low-energy model is composed by molecular orbitals which arrange themselves in a typical Kagome lattice at n = 2/3 filling, where the Fermi level lies at the Dirac point. The Coulomb interaction matrix expressed in this molecular orbitals basis, as obtained by large-scale constrained random-phase approximation calculations, is characterized by local U and non-local parameters exceeding more than ten times the Kagome bandwidth. For such Kagome systems, our findings suggest the possible emergence of peculiar electron–electron collective phenomena, such as an exotic valence bond solid order characterized by modulated bond strengths.

AB - By using first-principles calculations we put forward the Cu-dicyanoanthracene lattice as a platform to investigate strong electronic correlations in the family of Kagome metal-organic frameworks. We show that the low-energy model is composed by molecular orbitals which arrange themselves in a typical Kagome lattice at n = 2/3 filling, where the Fermi level lies at the Dirac point. The Coulomb interaction matrix expressed in this molecular orbitals basis, as obtained by large-scale constrained random-phase approximation calculations, is characterized by local U and non-local parameters exceeding more than ten times the Kagome bandwidth. For such Kagome systems, our findings suggest the possible emergence of peculiar electron–electron collective phenomena, such as an exotic valence bond solid order characterized by modulated bond strengths.

KW - FERROELECTRICITY

KW - Kagome lattice

KW - NETWORK

KW - ab initio calculations

KW - constrained random phase approximation

KW - electronic correlations

KW - organic materials

KW - Constrained random phase approximation

KW - Electronic correlations

KW - Organic materials

KW - Ab initio calculations

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JO - Journal of Physics: Materials

JF - Journal of Physics: Materials

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M1 - 025001

ER -

Kagome metal-organic frameworks as a platform for strongly correlated electrons

Abstract

Austrian Fields of Science 2012

Keywords

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