Origin of pressure-induced insulator-to-metal transition in the van der Waals compound FePS3 from first-principles calculations

Robert A. Evarestov; Aleksejs Kuzmins

doi:10.1002/jcc.26178

Origin of pressure-induced insulator-to-metal transition in the van der Waals compound FePS3 from first-principles calculations

Robert A. Evarestov^*
, Aleksejs Kuzmins

^*Šī darba korespondējošais autors

St. Petersburg State University

Pētījuma izpildes rezultāts: Devums žurnālam › Zinātniskais raksts (žurnālā) › koleģiāli recenzēts

30 Atsauces (Scopus)

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Pressure-induced insulator-to-metal transition (IMT) has been studied in the van der Waals compound iron thiophosphate (FePS₃) using first-principles calculations within the periodic linear combination of atomic orbitals method with hybrid Hartree–Fock-DFT B3LYP functional. Our calculations reproduce correctly the IMT at ∼15 GPa, which is accompanied by a reduction of the unit cell volume and of the vdW gap. We found from the detailed analysis of the projected density of states that the 3p states of phosphorus atoms contribute significantly at the bottom of the conduction band. As a result, the collapse of the band gap occurs due to changes in the electronic structure of FePS₃ induced by relative displacements of phosphorus or sulfur atoms along the c-axis direction under pressure.

Oriģinālvaloda	Angļu
Lapas (no-līdz)	1337-1344
Lapu skaits	8
Žurnāls	Journal of Computational Chemistry
Sējums	41
Izdevuma numurs	14
DOIs	https://doi.org/10.1002/jcc.26178
Publikācijas statuss	Publicēts - 30 maijs 2020

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@article{5e663cd2d7004062a6b46f3ad7b5f733,

title = "Origin of pressure-induced insulator-to-metal transition in the van der Waals compound FePS3 from first-principles calculations",

abstract = "Pressure-induced insulator-to-metal transition (IMT) has been studied in the van der Waals compound iron thiophosphate (FePS3) using first-principles calculations within the periodic linear combination of atomic orbitals method with hybrid Hartree–Fock-DFT B3LYP functional. Our calculations reproduce correctly the IMT at ∼15 GPa, which is accompanied by a reduction of the unit cell volume and of the vdW gap. We found from the detailed analysis of the projected density of states that the 3p states of phosphorus atoms contribute significantly at the bottom of the conduction band. As a result, the collapse of the band gap occurs due to changes in the electronic structure of FePS3 induced by relative displacements of phosphorus or sulfur atoms along the c-axis direction under pressure.",

keywords = "FePS, first principles calculations, high pressure, insulator-to-metal transition, layered compound",

author = "Evarestov, \{Robert A.\} and Aleksejs Kuzmins",

note = "Publisher Copyright: {\textcopyright} 2020 Wiley Periodicals, Inc.",

year = "2020",

month = may,

day = "30",

doi = "10.1002/jcc.26178",

language = "English",

volume = "41",

pages = "1337--1344",

journal = "Journal of Computational Chemistry",

issn = "0192-8651",

publisher = "John Wiley \& Sons Inc.",

number = "14",

}

Origin of pressure-induced insulator-to-metal transition in the van der Waals compound FePS3 from first-principles calculations. / Evarestov, Robert A.; Kuzmins, Aleksejs.
(gadā): Journal of Computational Chemistry, Sēj. 41, Nr. 14, 30.05.2020, lpp. 1337-1344.

Pētījuma izpildes rezultāts: Devums žurnālam › Zinātniskais raksts (žurnālā) › koleģiāli recenzēts

TY - JOUR

T1 - Origin of pressure-induced insulator-to-metal transition in the van der Waals compound FePS3 from first-principles calculations

AU - Evarestov, Robert A.

AU - Kuzmins, Aleksejs

PY - 2020/5/30

Y1 - 2020/5/30

N2 - Pressure-induced insulator-to-metal transition (IMT) has been studied in the van der Waals compound iron thiophosphate (FePS3) using first-principles calculations within the periodic linear combination of atomic orbitals method with hybrid Hartree–Fock-DFT B3LYP functional. Our calculations reproduce correctly the IMT at ∼15 GPa, which is accompanied by a reduction of the unit cell volume and of the vdW gap. We found from the detailed analysis of the projected density of states that the 3p states of phosphorus atoms contribute significantly at the bottom of the conduction band. As a result, the collapse of the band gap occurs due to changes in the electronic structure of FePS3 induced by relative displacements of phosphorus or sulfur atoms along the c-axis direction under pressure.

AB - Pressure-induced insulator-to-metal transition (IMT) has been studied in the van der Waals compound iron thiophosphate (FePS3) using first-principles calculations within the periodic linear combination of atomic orbitals method with hybrid Hartree–Fock-DFT B3LYP functional. Our calculations reproduce correctly the IMT at ∼15 GPa, which is accompanied by a reduction of the unit cell volume and of the vdW gap. We found from the detailed analysis of the projected density of states that the 3p states of phosphorus atoms contribute significantly at the bottom of the conduction band. As a result, the collapse of the band gap occurs due to changes in the electronic structure of FePS3 induced by relative displacements of phosphorus or sulfur atoms along the c-axis direction under pressure.

KW - FePS

KW - first principles calculations

KW - high pressure

KW - insulator-to-metal transition

KW - layered compound

UR - https://dspace.lu.lv/dspace/handle/7/52463%20,%20https://onlinelibrary.wiley.com/doi/abs/10.1002/jcc.26178

UR - https://www.scopus.com/pages/publications/85083910292

U2 - 10.1002/jcc.26178

DO - 10.1002/jcc.26178

M3 - Article

C2 - 32091135

SN - 0192-8651

VL - 41

SP - 1337

EP - 1344

JO - Journal of Computational Chemistry

JF - Journal of Computational Chemistry

IS - 14

ER -

Origin of pressure-induced insulator-to-metal transition in the van der Waals compound FePS3 from first-principles calculations

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